Page 2
Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Preface We thank you for purchasing LOGO! and congratulate you on your decision. With LOGO! you have acquired a logic module that meets the stringent quality requirements of ISO 9001. LOGO! can be used in many fields of applications. Due to its high functionality and easy operation, LOGO! offers you the utmost efficiency for almost any application.
Page 4
Preface Note Some chapters/sections in this manual specifically relate to the LOGO! 0BA7 devices. For easy identification, the names of these chapters/sections end with "(0BA7 only)". Valid range of this manual The manual applies to devices of series 0BA6 and 0BA7. New features of the LOGO! 0BA7 device series The following features are new for the LOGO! 0BA7 devices: ●...
Page 5
Preface ● Support of configuration of elements connected to UDFs (User-Defined Functions) LOGO!Soft Comfort V7.0 provides a new circuit program editor - the UDF editor. Circuit programs created in the UDF editor can be saved as individual UDF blocks for use in an existing or a new circuit program in LOGO!Soft Comfort.
Page 6
Preface ● Additional optional analog inputs and fast digital inputs are available on some of the LOGO! 0BA6 Base Modules. ● LOGO! 0BA6 configuration menus can be displayed in one of ten supported languages. You have a configuration choice to specify the language for LOGO! menus. ●...
Page 7
Preface Additional support Additional support is available on the Siemens website: Siemens LOGO! website (http://www.siemens.com/logo) LOGO! Manual, 04/2011, A5E03556174-01...
Table of contents Preface ..............................3 Getting started with LOGO!........................13 LOGO! installation and wiring ........................29 Modular LOGO! setup........................32 2.1.1 Maximum LOGO! network setup (0BA7 only)................32 2.1.2 Maximum setup with expansion and communication modules............34 2.1.3 Setup with different voltage classes ....................36 2.1.4 Compatibility..........................38 Installing/removing LOGO!......................39...
Page 10
Table of contents 3.7.6 Switching LOGO! to RUN mode ....................97 3.7.7 Second circuit program ......................100 3.7.8 Deleting a block......................... 105 3.7.9 Deleting block groups........................ 106 3.7.10 Correcting programming errors....................107 3.7.11 Selecting analog output values for RUN/STOP transition ............107 3.7.12 Defining the type of analog outputs ..................
Page 11
Table of contents 4.4.13 Astronomical clock (0BA7 only) ....................195 4.4.14 Stopwatch (0BA7 only) ......................198 4.4.15 Up/down counter........................201 4.4.16 Hours counter..........................205 4.4.17 Threshold trigger........................210 4.4.18 Analog threshold trigger......................213 4.4.19 Analog differential trigger ......................216 4.4.20 Analog comparator........................218 4.4.21 Analog watchdog ........................223 4.4.22 Analog amplifier .........................226 4.4.23 Latching relay..........................228...
Page 12
Table of contents Applications ............................317 Technical data ............................319 General technical data ......................319 Technical data: LOGO! 230...................... 321 Technical data: LOGO! DM8 230R and LOGO! DM16 230R ........... 324 Technical data: LOGO! 24......................326 Technical data: LOGO! DM8 24 and LOGO! DM16 24 ............328 Technical data: LOGO! 24RC...
Getting started with LOGO! Here's LOGO! LOGO! is a universal logic module made by Siemens that integrates: ● Controls ● Operator and display panel with background lighting ● Power supply ● Interface for expansion modules ● Interface for cards or cables, according to the device series: –...
Page 14
Getting started with LOGO! Which devices are available? LOGO! Base Modules are available in two voltage classes: ● Class 1 ≤ 24 V, i.e. 12 V DC, 24 V DC, 24 V AC ● Class 2 > 24 V, i.e. 115...240 V AC/DC LOGO! Base Modules are available in two versions: ●...
Page 15
Getting started with LOGO! Features of the LOGO! TD The LOGO! TD is available beginning with the 0BA6 series. It provides an additional display that is wider than the LOGO! Basic. It has four function keys that you can program in your circuit program as inputs.
Page 16
Getting started with LOGO! Note The LOGO! Base Module may only be equipped with expansion modules of the same voltage class. Mechanical encoding pins in the housing prevent you from connecting devices of a different voltage class. Exception: The interface on the left side of an analog module or communication module is galvanically isolated.
Page 17
Getting started with LOGO! The LOGO! structure Rx/Tx LINK Rx/Tx LINK ① ② Power supply Inputs ③ ④ Outputs PE terminal, for connecting to earth ground ⑤ ⑥ RJ45 socket, for connection to Ethernet Ethernet communication status LEDs (10/100 Mbit/s) ⑦...
Page 18
Getting started with LOGO! ① ② Power supply Inputs ③ ④ Outputs Module slot with cap ⑤ ⑥ Control panel (not for RCo) LCD (not for RCo) ⑦ ⑧ LOGO! TD cable connector Expansion interface ⑨ Mechanical coding sockets LOGO! Manual, 04/2011, A5E03556174-01...
Page 19
Getting started with LOGO! ① ② Power supply Inputs ③ ④ Outputs RUN/STOP LED ⑤ ⑥ Expansion interface Mechanical coding pins ⑦ ⑧ Mechanical coding sockets Slide LOGO! Manual, 04/2011, A5E03556174-01...
Page 20
Getting started with LOGO! ① ② Power supply Inputs ③ ④ Outputs RUN/STOP LED ⑤ ⑥ Expansion interface Mechanical coding pins ⑦ ⑧ Mechanical coding sockets Slide LOGO! AM2 ① ② Power supply Inputs ③ ④ RUN/STOP LED Expansion interface ⑤...
Page 21
Getting started with LOGO! LOGO! AM2 AQ (0 ... 10 V DC or 0/4 ... 20 mA) ① ② Power supply Outputs ③ ④ RUN/STOP LED Expansion interface ⑤ ⑥ Mechanical coding pins Mechanical coding sockets ⑦ ⑧ Slide PE terminal, for connecting to earth ground LOGO! CM EIB/KNX ①...
Page 22
Getting started with LOGO! LOGO! TD ① Communication interface ② Power supply The LOGO! TD includes a wider display area than the LOGO! onboard display. It includes four programmable cursor keys, four programmable function keys, and an ESC and an OK key.
Page 23
Getting started with LOGO! Symbols Version with display unit is equipped with 8 inputs, 4 outputs and 1 Ethernet interface Version with display unit is equipped with 8 inputs and 4 outputs Version without display unit is equipped with 8 inputs and 4 outputs The digital module is equipped with 4 digital inputs and 4 digital outputs The digital module is equipped with 8 digital inputs and 8 digital outputs The analog module is equipped with 2 analog inputs or 2 analog outputs, according to...
Page 24
Getting started with LOGO! Versions The following LOGO! versions are available: Symbol Designation Supply voltage Inputs Outputs Properties LOGO! 12/24RCE 12/24V DC 8 digital 4 relays (10 A) LOGO! 230RCE 115 ... 240 V 8 digital 4 relays (0BA7) AC/DC (10A) LOGO! 12/24RC 12/24 V DC...
Page 25
Getting started with LOGO! Expansion modules The following expansion modules can be connected to LOGO!: Symbol Name Power supply Inputs Outputs LOGO! DM8 12/24R 12/24 V DC 4 digital 4 relays (5A) LOGO! DM8 24 24 V DC 4 digital 4 solid state 24V / 0.3A LOGO! DM8 24R...
Page 26
Getting started with LOGO! Communication modules The following communication modules can be connected to LOGO!: Symbol Name Power supply Inputs Outputs LOGO! CM AS Interface 30 V DC the next four the next four inputs after the outputs after the physical inputs of physical outputs LOGO!
Page 27
Getting started with LOGO! Certification and approvals LOGO! is certified to cULus and FM. ● cULus Haz. Loc. Underwriters Laboratories Inc. (UL) to - UL 508 (Industrial Control Equipment) - CSA C22.2 No. 142 (Process Control Equipment) - UL 1604 (Hazardous Location) - CSA-213 (Hazardous Location) APPROVED for use in Class I, Division 2, Group A, B, C, D Tx...
Page 28
Getting started with LOGO! ID for Korea Our products carrying the label shown at the side are compliant with Korean standards. WARNING Risk of death, personal injury or property damage can occur if you do not follow safety precautions for hazardous locations. In potentially explosive atmospheres, do not disconnect connectors when the system is in RUN.
LOGO! installation and wiring General guidelines Please note the following guidelines for installing and wiring your LOGO!: ● Always ensure that the wiring of your LOGO! is compliant with current rules and standards. Also, conform with all national and regional regulations when you install and operate the devices.
Page 30
LOGO! installation and wiring What you must note when installing LOGO! is designed for fixed and enclosed installation in the housing or the control cabinet. WARNING Attempts to install or wire LOGO! or related equipment with power applied could cause electric shock or faulty operation of the equipment.
Page 31
LOGO! installation and wiring Carrying out tests You must ensure safety in your plant. Before finally commissioning a system, carry out complete functional testing as well as all the necessary safety testing. Also, test for any predictable faults that can occur. This means that you will avoid any danger to the plant or to people during operation.
LOGO! installation and wiring 2.1 Modular LOGO! setup Modular LOGO! setup 2.1.1 Maximum LOGO! network setup (0BA7 only) Maximum LOGO! 0BA7 network setup LOGO! 0BA7 supports SIMATIC S7 communication via 10/100 Mbit/s TCP/IP Ethernet. A LOGO! 0BA7 device can support a maximum of 8+1 network connections as described below: ●...
Page 33
LOGO! installation and wiring 2.1 Modular LOGO! setup A typical LOGO! 0BA7 network setup is shown below: ① Physical Ethernet connections ② Logical connection for communication between LOGO! and PC (by TCP/IP-based Ethernet) ③ Logical connections for S7 communication between SIMATIC devices (with S7 protocol over TCP/IP) LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! installation and wiring 2.1 Modular LOGO! setup 2.1.2 Maximum setup with expansion and communication modules LOGO! supports a maximum of 24 digital inputs, 8 analog inputs, 16 digital outputs, and 2 analog outputs (Page 13). You can achieve the maximum setup in different ways as shown below: with Maximum setup of a LOGO!
Page 35
PV should be on the LOGO! Base Module or an analog input module adjacent to the LOGO! Base Module). Siemens recommends that you position the CM AS Interface on the far right. (If the AS Interface voltage fails, communication between the LOGO! system and expansion modules that are arranged to the right of the LOGO! CM AS Interface expansion module is interrupted).
LOGO! installation and wiring 2.1 Modular LOGO! setup 2.1.3 Setup with different voltage classes Rules Digital modules can only be directly connected to devices of the same voltage class. You can connect analog and communication modules to devices of any voltage class. You can replace two similar DM8 expansion modules by one appropriate DM16 expansion module (and vice versa) without having to change the circuit program.
Page 37
LOGO! installation and wiring 2.1 Modular LOGO! setup Overview: Connecting an additional expansion module to an expansion module Expansion module Additional expansion modules DM8 24, DM8 24R DM8 AM2, 12/24R, DM16 24 230R, AM2 PT100, DM16 DM16 AM2 RTD, 230R AM2 AQ DM8 12/24R, DM16 24R...
LOGO! installation and wiring 2.1 Modular LOGO! setup 2.1.4 Compatibility The LOGO! TD module can only be used with equipment series 0BA6 or 0BA7. The ES7 version of the LOGO! TD provides new menu commands for network communication and error diagnostics that specifically relate to the LOGO! 0BA7 device. The ES7 LOGO! TD additionally provides a "Card"...
LOGO! installation and wiring 2.2 Installing/removing LOGO! Installing/removing LOGO! Dimensions The LOGO! installation dimensions are compliant with DIN 43880. LOGO! can be snap-mounted to 35 mm DIN rails to EN 50022 or on the wall. LOGO! width: ● LOGO! TD has a width of 128.2 mm, which corresponds to 8 subunits ●...
LOGO! installation and wiring 2.2 Installing/removing LOGO! 2.2.1 DIN rail mounting Mounting How to mount a LOGO! Base Module and a digital module onto a DIN rail: 1. Hook the LOGO! Base Module onto the rail. 2. Push down the lower end to snap it on. The mounting interlock at the rear must engage. 3.
Page 41
LOGO! installation and wiring 2.2 Installing/removing LOGO! 5. Slide the digital module towards the left until it contacts the LOGO! Base Module. 6. Using a screwdriver, push the interlock to the left. In its end position the slide interlock engages in the LOGO! Base Module. Repeat the digital module steps to mount further expansion modules.
Page 42
LOGO! installation and wiring 2.2 Installing/removing LOGO! Removal To remove LOGO!: ..if you have installed only one LOGO! Base Module: 1. Insert a screwdriver into the eyelet at the bottom of the slide interlock and move the latch downward. 2.
LOGO! installation and wiring 2.2 Installing/removing LOGO! Repeat steps 1 to 4 for all other expansion modules. Note If you have connected more than one expansion module, it is advisable to start removal with the last module at the right-hand side. Make sure the slide interlock of the module to be installed/removed is not engaged in the next module.
Page 44
LOGO! installation and wiring 2.2 Installing/removing LOGO! Drilling template for wall-mounting Before you can wall-mount LOGO!, you need to drill holes using the template shown below: All dimensions in mm Bore hole for Ø M4 screw, tightening torque 0.8 to 1.2 Nm ①...
LOGO! installation and wiring 2.2 Installing/removing LOGO! 2.2.3 Mounting the LOGO! TD To prepare the mounting surface for the optional LOGO! TD and mount it, follow these steps: 1. Cut a 119.5 mm x 78.5 mm (tolerance: +0.5 mm) hole in the mounting surface. 2.
LOGO! installation and wiring 2.3 Wiring LOGO! Wiring LOGO! Wire LOGO! using a screwdriver with a 3-mm blade. You do not need wire ferrules for the terminals. You can use conductors with cross-sections of up to the following thicknesses: ● 1 x 2.5 mm ●...
Page 47
LOGO! installation and wiring 2.3 Wiring LOGO! Connecting LOGO! To connect LOGO! to the power supply: Note LOGO! is a double-insulated switchgear. For LOGO! 0BA6, you do not need to connect an equipment grounding conductor. For LOGO! 0BA7, however, you must connect its PE terminal to earth ground.
The power connection is non-polar. If you connect a DC power supply to the LOGO! TD, you can connect the positive supply wire or negative supply wire to either the left or right side. Note Siemens recommends that you protect the LOGO! TD with a 0.5 A safety fuse on the power supply. LOGO!
LOGO! installation and wiring 2.3 Wiring LOGO! 2.3.3 Connecting LOGO! inputs Requirements At the inputs you connect sensor elements such as: momentary pushbuttons, switches, light barriers, daylight control switches etc. Sensor characteristics for LOGO! LOGO! 12/24RCE LOGO! 24/24o LOGO! DM8 LOGO! DM8 12/24R LOGO! 12/24RC...
Page 50
LOGO! installation and wiring 2.3 Wiring LOGO! Sensor connections Connecting glow lamps and 2-wire proximity switches (Bero) to LOGO! 230RCE/230RC/230RCo or LOGO! DM8 230R (AC) and LOGO! DM16 230R (AC) The figure below shows how you connect a switch with a glow lamp to LOGO! The current that flows through the glow lamp allows LOGO! to detect a "1"...
Page 51
LOGO! installation and wiring 2.3 Wiring LOGO! Special features of LOGO! 12/24RCE/RC/RCo, LOGO! 24/24o and LOGO! 24C/24Co Fast digital inputs: I3, I4, I5 and I6: These versions are also equipped with fast digital inputs (up/down counters, threshold triggers). The restrictions mentioned earlier do not apply to these fast digital inputs. Note The fast digital inputs I3, I4, I5 and I6 are the same as in the previous versions 0BA0 to 0BA5;...
Page 52
LOGO! installation and wiring 2.3 Wiring LOGO! Sensor connections To connect sensors to LOGO! : LOGO! 12/24..and LOGO! 24... The inputs of these devices are not isolated and therefore require a common reference potential (chassis ground). With LOGO! 12/24RCE/RC/RCo, LOGO! 24/24o and LOGO! 24C/24Co modules, you can tap analog signals between the supply voltage and chassis ground (* = series...
Page 53
LOGO! installation and wiring 2.3 Wiring LOGO! LOGO! AM2 The illustration above shows an example of four-wire current measurement and two-wire voltage measurement. Connecting a two-wire sensor to the LOGO! AM2 Wire up the two-wire sensor's connecting wires as follows: 1.
Page 54
LOGO! installation and wiring 2.3 Wiring LOGO! LOGO! AM2 PT100 You can connect a maximum of two 2-wire or 3-wire PT100 sensors or one 2-wire plus one 3-wire PT100 sensor to the module. Note that the sensor type supported by the module is only PT100 with the default temperature coefficient of α= 0.003850.
Page 55
LOGO! installation and wiring 2.3 Wiring LOGO! LOGO! AM2 RTD You can connect a maximum of two PT100 sensors or two PT1000 or one PT100 plus one PT1000 sensor in a 2-wire or 3-wire connection or in a mixed use of 2-wire and 3-wire connection to the module.
LOGO! installation and wiring 2.3 Wiring LOGO! 2.3.4 Connecting outputs LOGO! ...R... The LOGO! ...R... version is equipped with relay outputs. The potential of the relay contacts is isolated from the power supply and the inputs. Requirements for relay outputs You can connect various loads to the outputs;...
Page 57
LOGO! installation and wiring 2.3 Wiring LOGO! Connecting This is how you connect the load to a LOGO! with solid-state outputs: LOGO! AM2 AQ V1, V2: 0 ... 10 V DC >= 5 kΩ I1, I2: 0/4 ... 20 mA <= 250 Ω...
LOGO! installation and wiring 2.3 Wiring LOGO! 2.3.5 Connecting the EIB bus The connection is carried out via the two-pole screw terminal (+ and -). Only the red-black core pair is used, the white-yellow core pair is not connected. Press the button "Prog ↓" to switch the CM EIB/KNX to programming mode. Note The button "Prog ↓...
LOGO! installation and wiring 2.3 Wiring LOGO! 2.3.6 Connecting the AS interface bus To set the address of the module on the AS interface bus, you need an addressing unit. Valid addresses are in the range of 1 to 31. Use each address once only. You can set the address on the AS interface bus before or after installation.
Page 60
LOGO! installation and wiring 2.3 Wiring LOGO! Logic Assignments LOGO! system AS Interface system Inputs Output data bits Outputs Input data bits "n" depends on the plug-in position of the expansion module relative to the LOGO! Base Module. It indicates the number of the input or output in LOGO! program code. Note Ensure that there is enough space for the inputs/outputs of the AS interface in the LOGO!'s address space.
LOGO! installation and wiring 2.3 Wiring LOGO! 2.3.7 Connecting modems (0BA6 only) The LOGO! 0BA6 device series supports a modem connection between a PC and LOGO! 0BA6 Base Module. You can use modems to download and upload circuit programs between LOGO!Soft Comfort and LOGO! devices. Configuration of the modem connection is only possible with LOGO!Soft Comfort V6.1 or later.
Requirements for the network cable You can connect a standard Ethernet cable to the Ethernet interface. To minimize electromagnetic interference, however, Siemens recommends you use a standard Category 5 shielded twisted-pair Ethernet cable with a shielded RJ45 connector on each end.
LOGO! installation and wiring 2.4 Putting into operation Putting into operation 2.4.1 Switching the LOGO!/Power On LOGO! does not have a power switch. The reaction of LOGO! during startup depends on the following: ● Whether a circuit program is stored in LOGO! ●...
Page 64
LOGO! installation and wiring 2.4 Putting into operation The following illustration shows all possible reactions of LOGO!: ① This power-on screen is only available on LOGO! 0BA7. LOGO! Manual, 04/2011, A5E03556174-01...
Page 65
LOGO! installation and wiring 2.4 Putting into operation You can also memorize four simple rules for starting LOGO! : 1. If neither LOGO! nor the inserted card contains a circuit program, the LOGO! Basic displays the following: 2. A circuit program on the card is automatically copied to LOGO!. The circuit program in LOGO! is overwritten.
4. Configure the application program in ETS2, V 1.2. 5. The application program is loaded into the devices via the EIB interface. The application program is available on the LOGO! home page (http://www.siemens.de/logo). 6. Click on "Program Physical Address" in ETS.
LOGO! installation and wiring 2.4 Putting into operation 2.4.3 Operating states LOGO! Base Module operating states LOGO! Base Modules (LOGO! Basic or LOGO! Pure) have two operating states: STOP and RUN. STOP The display shows: 'No Program' (not Display: Screen mask for monitoring I/O and •...
Page 68
LOGO! installation and wiring 2.4 Putting into operation CM AS Interface, communication states The CM AS Interface has three communication states: The LED is lit green, red or flashes red/yellow. LED AS-I is lit Green Red/Yellow AS Interface communication OK AS Interface communication Slave has address "0".
Programming LOGO! Getting started with LOGO! Programming refers to creating a circuit program from the LOGO! Base Module. In this chapter you will learn how to use LOGO! to create the LOGO! circuit programs for your application. LOGO!Soft Comfort is the LOGO! programming software that you can use on your PC to quickly and easily create, test, modify, save and print the circuit programs.
Programming LOGO! 3.1 Connectors Connectors LOGO! is equipped with inputs and outputs Example of a configuration with several modules: Rx/Tx LINK ① Inputs ② Outputs ③ Analog inputs Each input is identified by the letter I plus a number. When you look at LOGO! from the front, you can see the input terminals at the top.
Page 71
Programming LOGO! 3.1 Connectors Note LOGO! can recognize, read and switch the I/O of all expansion modules regardless of their type. The I/O are presented in the installation order of the modules. Dependent upon specific LOGO! device series, the following I/O and flag blocks are available for creating your circuit program from LOGO!: •...
Page 72
Programming LOGO! 3.1 Connectors LOGO! has the following connectors : Connectors Inputs LOGO! 230RCE Two groups: I9 to I24 AI1 to none I1 to I4 and I5 to I8 LOGO! 230RC/RCo LOGO! 24RC/RCo LOGO! 12/24RCE I1, I2, I3-I6, I7, I8 I9 to I24 AI5 to AI3, AI4 ...
EIB/KNX and analog inputs on LOGO! Any further details about configuring the application program in ETS can be found in the current application program description. For the application program see Siemens product database from version J onwards: ● http://www.siemens.de/gamma ● http://www.siemens.de/logo...
Programming LOGO! 3.3 Blocks and block numbers Blocks and block numbers This chapter shows you how to use LOGO! elements to create complex circuits and how blocks and I/O are interconnected. In the topic "From circuit diagram to LOGO! Program (Page 76)" you will learn how to transform a conventional circuit into a LOGO! circuit program.
Page 75
Programming LOGO! 3.3 Blocks and block numbers Block representation on the LOGO! onboard display The figure below shows a typical view of the LOGO! onboard display. As you can see, it can show only one block at a time. We have therefore introduced block numbers to help you check the circuit structure.
Programming LOGO! 3.4 From circuit diagram to LOGO! program Note An organizational program chart can be a valuable aid when you create the circuit program because you can enter in this chart all the block numbers that LOGO! assigns. By using the LOGO!Soft Comfort software to program LOGO!, you can directly create a function chart of your circuit program.
Page 77
Programming LOGO! 3.4 From circuit diagram to LOGO! program Note Although you have four inputs available for logic operations (Page 142), most of the views will only show three inputs for reasons of clarity. You program this fourth input and assign parameters just like you do with the other three inputs.
Page 78
Programming LOGO! 3.4 From circuit diagram to LOGO! program Wiring example The following figure shows you the wiring, based on a 230 V AC version of LOGO!. LOGO! Manual, 04/2011, A5E03556174-01...
Programming LOGO! 3.5 The four golden rules for operating LOGO! The four golden rules for operating LOGO! Rule 1: Changing the operating mode ● You create the circuit program in programming mode. After power is on, and when the display shows "No Program / Press ESC", press the ESC key to select programming mode.
Page 80
Programming LOGO! 3.5 The four golden rules for operating LOGO! Rule 3: Cursor and cursor movement The following applies when you edit a circuit program: ● You can move the cursor when it appears in the form of an underscore: –...
Programming LOGO! 3.6 Overview of LOGO! menus Overview of LOGO! menus LOGO! 0BA6 menus The following illustration shows an overview of LOGO! 0BA6 menus: LOGO! Manual, 04/2011, A5E03556174-01...
Page 82
Programming LOGO! 3.6 Overview of LOGO! menus LOGO! 0BA7 menus The following illustration shows an overview of LOGO! 0BA7 menus: For more details on these menus, refer to the Appendix topic entitled "LOGO! menu structure (Page 353)". The LOGO! TD menus provide configuration settings (Page 359) for the LOGO! TD. These menus are a subset of the LOGO! menus and are operated in much the same way.
Programming LOGO! 3.7 Writing and starting the circuit program Writing and starting the circuit program The example below shows how to create a program for your circuit design in LOGO!. 3.7.1 Selecting programming mode You have connected LOGO! to the power supply and switched it on. The display now shows you the following message: Switch LOGO! to programming mode by pressing ESC.
Page 84
Programming LOGO! 3.7 Writing and starting the circuit program The LOGO!'s programming menu is as shown below: ② Here you can also move the ">" cursor by pressing and . Move the ">" cursor to " " and confirm with OK. The Edit menu of LOGO! is as shown below: ③...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.2 The first circuit program Let us now take a look at the following parallel circuit consisting of two switches. Circuit diagram The corresponding circuit diagram: Translated into a LOGO! circuit program this means: Relay K1 is (at output Q1) controlled by means of an OR block.
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.3 Circuit program input Let us now write the circuit program, starting at the output and working towards the input. LOGO! initially shows the output: You will see an underscore below the Q in Q1, which is the cursor. The cursor indicates your current position in the circuit program.
Page 87
Programming LOGO! 3.7 Writing and starting the circuit program Press OK to confirm your entries and exit the dialog. You have now entered the first block. Each new block is automatically assigned a block number. The only thing left to do is interconnect the block inputs. This is how it is done: Press OK.
Page 88
Programming LOGO! 3.7 Writing and starting the circuit program Press OK. I1 is now connected to the input of the OR block. The cursor jumps to the next input of the OR block. Now you connect input I2 to the input of the OR block: 1.
Page 89
Programming LOGO! 3.7 Writing and starting the circuit program Note You can invert individual inputs of the basic and special functions; that is, if an input carries a logical "1" signal, the circuit program will output a logical "0". On the other hand, a logical "0"...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.4 Assigning a circuit program name You can assign your circuit program a name that consists of up to 16 uppercase/lowercase letters, numbers and special characters. When LOGO! is in the view below, follow these steps: ①...
Programming LOGO! 3.7 Writing and starting the circuit program Your circuit program is now named "ABC", and you are returned to the programming menu. To change the name of your circuit program, proceed in the same way. Note You can change the name of the circuit program only in programming mode. You can read the name both in programming and in parameter assignment mode.
Page 92
Programming LOGO! 3.7 Writing and starting the circuit program Assigning a program password from the LOGO! Basic A password can have a maximum length of 10 characters, and consists only of uppercase letters. On the LOGO! Basic, you can assign, edit or deactivate the password only from the "Password"...
Page 93
Programming LOGO! 3.7 Writing and starting the circuit program Note You can cancel the input of a new password with ESC. In this case, the LOGO! Basic returns to the programming menu without saving the password. You can also set your password using LOGO!Soft Comfort. You cannot edit a password- protected circuit program in a LOGO! Base Module or upload it to LOGO!Soft Comfort unless you enter the correct password.
Page 94
Programming LOGO! 3.7 Writing and starting the circuit program Deactivating the password from the LOGO! Basic To deactivate the password to allow, for example, another user to edit your circuit program, you must know your current password (in our example "ZZ"), the same as if you were changing it.
Page 95
Programming LOGO! 3.7 Writing and starting the circuit program Changing LOGO! from RUN to STOP mode from the LOGO! TD A change from RUN mode to STOP mode from the LOGO! TD requires password entry if one is assigned. You must know the existing password if one is assigned. If there is no password assigned on the LOGO! Base Module, the LOGO! TD will not prompt you for password entry.
Page 96
Programming LOGO! 3.7 Writing and starting the circuit program The main menu of the LOGO! TD (version ES7): LOGO! changes to STOP mode. Note Whenever the LOGO! TD is shut down, the password is reset. The next time you start it and access this password-protected function (RUN to STOP), you will be prompted for password entry on the LOGO! TD.
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.6 Switching LOGO! to RUN mode In the main menu, select RUN to start LOGO!. 1. Return to the main menu: Press ESC ① 2. Move the '>' cursor to " ": Press ①...
Page 98
Programming LOGO! 3.7 Writing and starting the circuit program What is meant by: "LOGO! is in RUN"? In RUN mode, LOGO! executes the circuit program. To do so, LOGO! first reads the status at the inputs, determines the status of the outputs by means of the circuit program, and switches these on or off according to your settings.
Page 99
Programming LOGO! 3.7 Writing and starting the circuit program Status indication on the display LOGO! Manual, 04/2011, A5E03556174-01...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.7 Second circuit program Up to this point, you have successfully created your first circuit and assigned it a name and, if desired, a program password. In this section we will show you how to modify existing circuit programs and how to use the special functions.
Page 101
Programming LOGO! 3.7 Writing and starting the circuit program Adding a block to a circuit program Press to move the cursor to the B in B1 (B1 is the number of the OR block): Insert the new block at this position. Confirm with OK.
Page 102
Programming LOGO! 3.7 Writing and starting the circuit program In our example we do not use the reset input of the off-delay function, and we identify it with an 'x' connector. Assigning block parameters Now you set the off-delay time T: 1.
Page 103
Programming LOGO! 3.7 Writing and starting the circuit program Showing/hiding parameters - the parameter protection mode If you want to show/hide the parameter and allow/prevent its modification in parameter assignment mode: 1. Move the cursor to the protection mode: Press 2.
Page 104
Programming LOGO! 3.7 Writing and starting the circuit program Verification of the circuit program This program branch for Q1 is now completed. LOGO! shows you the output Q1. You can once again view the circuit program on the display. Use the keys to browse the circuit program;...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.8 Deleting a block Let us assume you want to delete the block B2 from your circuit program and connect B1 directly to Q1. Proceed as follows: 1. Switch LOGO! to programming mode (as a reminder, refer to the topic "The four golden rules for operating LOGO!"...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.9 Deleting block groups Assuming you intend to delete the blocks B1 and B2 from the following circuit program (corresponds with the circuit program in the "Second circuit program (Page 100)" topic), proceed as follows: 1.
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.10 Correcting programming errors Programming errors can be corrected easily in LOGO!: ● Provided editing mode is not yet closed, you can revert by one step by pressing ESC. ● If you have already configured all inputs, simply reconfigure the faulty input: 1.
Page 108
Programming LOGO! 3.7 Writing and starting the circuit program ② 6. Select " ": Press OK LOGO! shows the following display: The first two rows show your choices. The bottom row shows the current setting for the analog output channels. The default setting is 'Last'. ③...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.12 Defining the type of analog outputs Analog outputs can be either 0..10V/0..20mA, which is the default, or 4..20mA. To define the type of analog outputs, follow these steps starting from the programming menu: ①...
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.13 Deleting the circuit program and password To delete a circuit program and the password if one is defined: 1. Switch the LOGO! to programming mode (main menu). LOGO! opens the main menu: LOGO! 0BA6 main menu: LOGO! 0BA7 main menu: ①...
Programming LOGO! 3.7 Writing and starting the circuit program 5. Press OK. 6. Enter your password. 7. Press OK. The circuit program and the password are deleted. 3.7.14 Summertime/wintertime conversion You can enable or disable automatic summertime/wintertime conversion ① ● in parameter assignment mode by calling the menu command " "...
Page 112
Programming LOGO! 3.7 Writing and starting the circuit program ④ 6. Move the '>' cursor to " ": Press ④ 7. Confirm " ": Press OK LOGO! shows the following display: The current setting of automatic S/W Time conversion is shown on the bottom row. The default setting is 'Off': disabled.
Page 113
Programming LOGO! 3.7 Writing and starting the circuit program Enabling summertime/wintertime conversion To enable the summertime/winter time conversion and set parameters, follow these steps: 1. Move the '>' cursor to 'On': Press 2. Confirm 'On': Press OK The display shows: 3.
Page 114
Programming LOGO! 3.7 Writing and starting the circuit program Note You can specify a time zone difference Δ between 0 and 180 minutes. The US2 selection is only supported in LOGO! devices as of the series 0BA6. Let us assume you want to enable European summertime/wintertime conversion: 1.
Page 115
Programming LOGO! 3.7 Writing and starting the circuit program The display shows: ● Confirm all your entries with OK. You have now customized the summertime/wintertime conversion. The LOGO! onboard display now shows: LOGO! indicates that summertime/wintertime conversion is enabled, and that user-defined parameters ( '..' ) have been set.
Programming LOGO! 3.7 Writing and starting the circuit program 3.7.15 Synchronization Time synchronization between LOGO! and a connected communication module EIB/KNX (version 0AA1 upwards!) can be enabled/disabled ● in parameter assignment mode by means of the set menu ("Clock" menu item) ●...
Page 117
Programming LOGO! 3.7 Writing and starting the circuit program LOGO! shows the following display: The current setting of the automatic synchronization function is displayed on the bottom row. ④ The default setting is " "; that is, disabled. To enable/disable synchronization in parameter assignment mode: If you want to enable/disable automatic synchronization in parameter assignment mode, ⑥...
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) Configuring additional functions for LOGO! (0BA7 only) If you are a LOGO! 0BA7 user, then after you have successfully created the second circuit program, you can configure additional functions, including the new functions for the 0BA7 device series, as described below.
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) 3.8.1 Configuring network settings A LOGO! 0BA7 device can establish network communication with other LOGO! 0BA7 devices, SIMATIC S7 PLCs, a SIMATIC HMI, or a PC with LOGO!Soft Comfort V7.0 (For more detailed information, refer to the Maximum LOGO! network setup (0BA7 only) (Page 32) topic).
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) 8. Press to step into the next screen form for subnet mask setting. The default subnet mask is as shown below. To change the setting, press OK. When the cursor appears in a solid square, press to move the cursor to a position where you want to modify the number, then press...
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) 3.8.3 Configuring the Data Log You can configure the Data Log block only from LOGO!Soft Comfort. You can configure a maximum of one Data Log for your circuit program using LOGO!Soft Comfort.
Page 122
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) Viewing network connectors in LOGO! Consider a circuit program where a network digital input NI1 connects to the function block B5. B5 is connected to Q4. To view this network input, proceed as follows: 1.
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) 3.8.5 Changing LOGO! to normal/slave mode LOGO! 0BA7 provides a menu command for network communication settings. The section Configuring network settings (Page 119) showed you how to configure the network IP address, subnet mask and gateway for your LOGO!.
Page 124
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) ② 4. Confirm " ": Press OK LOGO! requires a password entry if one is assigned. If there is no password assigned on the LOGO!, LOGO! directly displays the view in Step 5. ③...
Page 125
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) Changing LOGO! from slave mode to normal mode LOGO! is now in the following view: ① 1. Move the cursor to " ": Press ① 2. Confirm " ": Press OK ②...
Page 126
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) Changing the password from the LOGO! After you enter the password assigned, LOGO! shows the following display: ① 1. Move the cursor to " ": Press ① 2. Confirm " ": Press OK 3.
Page 127
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) Deactivating the password from the LOGO! To deactivate the password when LOGO! is in the following view, follow these steps: ① 1. Move the cursor to " ": Press ① 2.
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) 3.8.6 Diagnosing errors from LOGO! LOGO! 0BA7 supports error diagnostics. From LOGO!, you can view basic errors including SD card read/write errors, network communication errors, and so forth. You can clear individual error messages or all error messages.
Page 129
Programming LOGO! 3.8 Configuring additional functions for LOGO! (0BA7 only) Clearing error information LOGO! 0BA7 can provide the following error messages: ● SD card read/write error ● SD card is write-protected ● EM (expansion module) bus error ● Network error To clear a specific error or all errors, proceed as follows: ④...
Programming LOGO! 3.9 Memory space and circuit program size Memory space and circuit program size The size of a circuit program in LOGO! is limited by the memory space (memory used by the blocks). Memory areas ● Program memory: LOGO! allows only a limited number of blocks in your circuit program. The second limitation is based on the maximum number of bytes a circuit program may contain.
Page 131
Programming LOGO! 3.9 Memory space and circuit program size Memory requirements (0BA6) The table below shows an overview of the memory requirements for the basic and special function blocks in LOGO! 0BA6: Function Program memory memory* Basic functions AND with edge evaluation NAND (not AND) NAND with edge evaluation NOR (not OR)
Page 132
Programming LOGO! 3.9 Memory space and circuit program size Function Program memory memory* Analog multiplexer Analog ramp PI controller Others Latching relay Pulse relay Message texts Softkey Shift register *: Bytes in the Rem memory area if retentivity is enabled. Memory requirements (0BA7) The table below shows an overview of the memory requirements for the basic and special function blocks in LOGO! 0BA7:...
Page 133
Programming LOGO! 3.9 Memory space and circuit program size Function Program memory memory* Yearly timer Astronomical clock Stopwatch Counters Up/down counter Hours counter Threshold trigger Analog Analog threshold trigger Analog differential trigger Analog comparator Analog watchdog Analog amplifier Pulse Width Modulator (PWM) Mathematic instruction Mathematic instruction error detection Analog multiplexer...
Page 134
Programming LOGO! 3.9 Memory space and circuit program size Calculating memory requirements When calculating the memory requirements of a circuit, you must always take into account all individual areas of memory. Example: The sample circuit program contains: Block no. Function Memory area Bytes Bytes...
Page 135
Programming LOGO! 3.9 Memory space and circuit program size Indication of available memory space LOGO! shows you the amount of free memory space. Proceed as follows: 1. Switch LOGO! to programming mode (as a reminder, refer to the topic "The four golden rules for operating LOGO! (Page 79)". ①...
Page 136
Programming LOGO! 3.9 Memory space and circuit program size LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions LOGO! provides you with various elements in programming mode, which are organized in the following lists: ● ↓Co: Connector list (Connector) (Page 138) ● ↓GF: List of the basic functions AND, OR, ... (Page 142) ● ↓SF: List of the special functions (Page 156) ●...
LOGO! functions 4.1 Constants and connectors - Co Constants and connectors - Co Constants and connectors (Co) represent inputs, outputs, flags, constant voltage levels (constants), and network digital and analog inputs/outputs (if 0BA7). Inputs: 1) Digital inputs Digital inputs are identified with an I. The number of the digital inputs (I1, I2, ...) corresponds to the number of the input connectors of the LOGO! Base Module and of the connected digital modules, in the order of their installation.
Page 139
LOGO! functions 4.1 Constants and connectors - Co 2) Analog outputs Analog outputs are identified by the letters AQ. Two analog outputs are available, namely AQ1 and AQ2. An analog output can only be connected with the analog input of a function, an analog flag AM or an analog output connector.
Page 140
LOGO! functions 4.1 Constants and connectors - Co Message text character set flag M27 The M27 flag selects between the two character sets that LOGO! uses to display message texts. State 0 corresponds to Character Set 1, and state 1 corresponds to Character Set 2. If M27=0 (low), only message texts configured for Character Set 1 will display;...
Page 141
LOGO! functions 4.1 Constants and connectors - Co Network inputs/outputs (available only in 0BA7 if configured from LOGO!Soft Comfort) You can configure the following network inputs/outputs only from LOGO!Soft Comfort. If the circuit program in LOGO! contains a network digital/analog I/O, you can not edit any of the rest of the circuit program except for the Par parameter.
LOGO! functions 4.2 Basic functions list - GF Basic functions list - GF Basic functions represent simple logical elements of Boolean algebra. You can invert the inputs of individual basic functions, that is, the circuit program inverts a logical "1" at a relevant input to a logical "0"; if "0" is set at the input, the program sets a logical "1".
LOGO! functions 4.2 Basic functions list - GF View in the circuit diagram View in LOGO! Name of the basic function XOR (Page 149) (exclusive OR) NOT (Page 149) (negation, inverter) 4.2.1 The output of the AND is only 1 if all inputs are 1, i.e. all contacts are closed. At an unused block input (x): x = 1.
LOGO! functions 4.2 Basic functions list - GF 4.2.2 AND with edge evaluation The output of an edge triggered AND is only 1 if all inputs are 1 and if at least one input was low in the previous cycle. At an unused block input (x): x = 1.
LOGO! functions 4.2 Basic functions list - GF 4.2.3 NAND (not AND) The output of the NAND is only 0 if the status at all inputs is 1, i.e. the contacts are closed. At an unused block input (x): x = 1. NAND function logic table LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.2 Basic functions list - GF 4.2.4 NAND with edge evaluation The output status of the NAND with edge evaluation is only 1 if at least one input is 0 and if all inputs were 1 in the previous cycle. At an unused block input (x): x = 1.
Page 147
LOGO! functions 4.2 Basic functions list - GF 4.2.5 The output status of the OR element is only 1 if at least one input is 1, i.e. at least one of the contacts is closed. At an unused block input (x): x = 0. OR function logic table LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.2 Basic functions list - GF 4.2.6 NOR (not OR) The output status of the NOR is only 1 if all inputs are 0, i.e. if switched off. The NOR output is set to 0 when one of the inputs is switched on (logical 1 status). At an unused block input (x): x = 0.
LOGO! functions 4.2 Basic functions list - GF 4.2.7 XOR (exclusive OR) The output status of the XOR is 1 if the inputs are not equivalent. At an unused block input (x): x = 0. XOR function logic table 4.2.8 NOT (Negation, Inverter) The output status is 1 if the input is 0.
LOGO! functions 4.3 Special Functions Special Functions Because of their different input designation, you can see right away that there is a difference between the special functions and basic functions. Special functions (SFs) contain timer functions, retentive functions and various parameter assignment options, which allow you to adapt the circuit program to suit your own requirements.
LOGO! functions 4.3 Special Functions Connector X at SF inputs SF inputs connected to connector x are set low. That is, the inputs carry a 'lo' signal. Parameter inputs At some of the inputs you do not apply any signals. You configure the relevant block values instead.
LOGO! functions 4.3 Special Functions Accuracy of T Because of slight tolerances in the characteristics of electronic components, the set time T can deviate. You can find a detailed description of such deviations in the "On-delay" topic (Page 160). Accuracy of the timer (weekly/yearly timer) To prevent timing inaccuracy of the real-time clock in C versions caused by this deviation, the timer value is continuously compared with a high-precision timebase and corrected.
LOGO! functions 4.3 Special Functions 4.3.4 Retentivity The switching states, counter and time values of many SFs (see the "Special functions list - SF (Page 156)" topic) can be set retentive. This means that current data values are retained after a power failure, and that the block resumes operation at the break point. The timer is not reset, but resumes operation until the time-to-go has expired, for example.
LOGO! functions 4.3 Special Functions 4.3.6 Calculating the gain and offset of analog values A sensor is connected to the analog input and converts a process variable into an electrical signal. This value of signal lies within the typical range of this sensor. LOGO! always converts the electrical signals at the analog input into digital values from 0 to 1000.
Page 155
LOGO! functions 4.3 Special Functions Example of analog values Process variable Voltage (V) Internal value Gain Offset Value shown (Ax) -30 °C 0 °C +70 °C 1000 1000 mbar 1000 1000 1000 3700 3700 mbar 6.75 5000 mbar 1000 1000 5000 0.01 0.01...
LOGO! functions 4.4 Special functions list - SF Special functions list - SF When you create your circuit program in LOGO!, you find the special function blocks in the SF list. You can invert the inputs of SFs individually, that is, the circuit program converts a logical "1" at the input into a logical "0";...
Page 157
LOGO! functions 4.4 Special functions list - SF View in LOGO! Name of the special function Random generator (Page 177) Stairway lighting switch (Page 179) Multiple function switch (Page 182) LOGO! 0BA6: Weekly timer (Page 185) LOGO! 0BA7: Yearly timer (Page 190) Astronomical clock (0BA7 only) (Page 195) Stopwatch (0BA7 only) (Page 198) Counter...
Page 158
LOGO! functions 4.4 Special functions list - SF View in LOGO! Name of the special function Hours counter (Page 205) Threshold trigger (Page 210) Analog Analog threshold trigger (Page 213) Analog differential trigger (Page 216) Analog comparator (Page 218) Analog watchdog (Page 223) Analog amplifier (Page 226) Analog multiplexer (Page 248) Pulse Width Modulator (PWM) (Page 261)
Page 159
LOGO! functions 4.4 Special functions list - SF View in LOGO! Name of the special function Analog Ramp (Page 251) PI controller (Page 256) Analog filter (0BA7 only) (Page 271) Max/Min (0BA7 only) (Page 273) Average value (0BA7 only) (Page 276) Miscellaneous Latching relay (Page 228) Pulse relay (Page 229)
LOGO! functions 4.4 Special functions list - SF View in LOGO! Name of the special function Shift register (Page 245) Mathematic instruction error detection (Page 268) 4.4.1 On-delay Short description The output is only set after a configurable on-delay time has expired. Symbol in LOGO! Wiring Description...
Page 161
LOGO! functions 4.4 Special functions list - SF If your LOGO! is a LOGO! 0BA7, you can additionally use the actual values of the following functions: ● Analog filter (0BA7 only) (Page 271) (actual value AQ) ● Average value (0BA7 only) (Page 276) (actual value AQ) ●...
Page 162
LOGO! functions 4.4 Special functions list - SF Valid ranges of the timebase, if T = Actual value of an already-programmed function Timebase max. value Meaning Accuracy 99990 Number of ms + 10 ms 5999 Number of s + 1 s 5999 Number of min + 1 min...
Page 163
LOGO! functions 4.4 Special functions list - SF The view in parameter assignment mode (example): Timing diagram Functional description The time T is triggered with a 0 to 1 transition at input Trg (T is the current LOGO! time). If the status of input Trg is 1 at least for the duration of the configured time T, the output is set to 1 on expiration of this time (the output follows the input with on-delay).
LOGO! functions 4.4 Special functions list - SF 4.4.2 Off-delay Short description When an on-delay is set, the output is reset when the configured time has expired. Symbol in LOGO! Wiring Description Input Trg The off-delay timer starts with a negative edge (1 to 0 transition) at input Trg (Trigger) Input R A signal at input R resets the on-delay time and the...
Page 165
LOGO! functions 4.4 Special functions list - SF ● Retentive on-delay (Page 168) (current time Ta) ● Wiping relay (pulse output) (Page 170) (current time Ta) ● Edge triggered wiping relay (Page 172) (current time Ta) ● Asynchronous pulse generator (Page 175) (current time Ta) ●...
LOGO! functions 4.4 Special functions list - SF 4.4.3 On-/Off-delay Short description The on-/off-delay function sets the output after the set on-delay time has expired, and resets it upon expiration of the off-delay time. Symbol in LOGO! Wiring Description Input Trg A positive edge (0 to 1 transition) at input Trg (Trigger) triggers the on-delay time T A negative edge (1 to 0 transition) at input Trg...
Page 167
LOGO! functions 4.4 Special functions list - SF ● On-delay (Page 160) (current time Ta) ● Off-delay (Page 164) (current time Ta) ● On-/off-delay (current time Ta) ● Retentive on-delay (Page 168) (current time Ta) ● Wiping relay(pulse output) (Page 170) (current time Ta) ●...
LOGO! functions 4.4 Special functions list - SF 4.4.4 Retentive on-delay Short description A one-shot at the input triggers a configurable on-delay time. The output is set when this time has expired. Symbol in LOGO! Wiring Description Input Trg A signal at input Trg (Trigger) triggers the on-delay timer.
Page 169
LOGO! functions 4.4 Special functions list - SF ● Retentive on-delay (current time Ta) ● Wiping relay(pulse output) (Page 170) (current time Ta) ● Edge triggered wiping relay (Page 172) (current time Ta) ● Asynchronous pulse generator (Page 175) (current time Ta) ●...
LOGO! functions 4.4 Special functions list - SF 4.4.5 Wiping relay (pulse output) Short description An input signal generates a signal with a configurable period at the output. Symbol in LOGO! Wiring Description Input Trg A signal at input Trg (Trigger) triggers the time for the wiping relay function.
Page 171
LOGO! functions 4.4 Special functions list - SF ● Wiping relay (pulse output) (current time Ta) ● Edge triggered wiping relay (Page 172) (current time Ta) ● Asynchronous pulse generator (Page 175) (current time Ta) ● Stairway light switch (Page 179) (current time Ta) ●...
LOGO! functions 4.4 Special functions list - SF 4.4.6 Edge triggered wiping relay Short description An input pulse generates a preset number of output pulses with a defined pulse/pause ratio (retriggerable), after a configured delay time has expired. Symbol in LOGO! Wiring Description Input Trg...
Page 173
LOGO! functions 4.4 Special functions list - SF ● Max/Min (0BA7 only) (Page 273) (actual value AQ) ● On-delay (Page 160) (current time Ta) ● Off-delay (Page 164) (current time Ta) ● On-/off-delay (Page 166) (current time Ta) ● Retentive on-delay (Page 168) (current time Ta) ●...
Page 174
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter View in programming mode (example): Press View in parameter assignment mode (example): LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.7 Asynchronous pulse generator Short description The output pulse shape can be modified by reconfiguring the pulse/pause ratio. Symbol in LOGO! Wiring Description Input En You can use input EN to set and reset the asynchronous pulse generator.
Page 176
LOGO! functions 4.4 Special functions list - SF ● On-/off-delay (Page 166) (current time Ta) ● Retentive on-delay (Page 168) (current time Ta) ● Wiping relay(pulse output) (Page 170) (current time Ta) ● Edge triggered wiping relay (Page 172) (current time Ta) ●...
LOGO! functions 4.4 Special functions list - SF 4.4.8 Random generator Short description The output of the random generator is set or reset within a configured time. Symbol in LOGO! Wiring Description Input En A positive edge ( 0 to 1 transition) at input En (Enable) triggers the on-delay time of the random generator.
Page 178
LOGO! functions 4.4 Special functions list - SF ● Off-delay (Page 164) (current time Ta) ● On-/off-delay (Page 166) (current time Ta) ● Retentive on-delay (Page 168) (current time Ta) ● Wiping relay(pulse output) (Page 170) (current time Ta) ● Edge triggered wiping relay (Page 172) (current time Ta) ●...
LOGO! functions 4.4 Special functions list - SF 4.4.9 Stairway lighting switch Short description An input edge triggers a configurable and retriggerable time. The output is reset after this time has expired. A warning signal can be output before this time has expired to warn of the impending shutdown.
Page 180
LOGO! functions 4.4 Special functions list - SF ● Off-delay (Page 164) (current time Ta) ● On-/off-delay (Page 166) (current time Ta) ● Retentive on-delay (Page 168) (current time Ta) ● Wiping relay(pulse output) (Page 170) (current time Ta) ● Edge triggered wiping relay (Page 172) (current time Ta) ●...
Page 181
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter Note the defaults specified in topic Time response (Page 151). Note All times must have the same timebase. View in programming mode (example): Press View in parameter assignment mode (example): LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.10 Multiple function switch Short description Switch with two different functions: ● Pulse switch with off-delay ● Switch (permanent lighting) Symbol in LOGO! Wiring Description Input Trg A signal at input Trg (Trigger) sets output Q (permanent light) or resets Q with an off-delay.
Page 183
LOGO! functions 4.4 Special functions list - SF If your LOGO! is a LOGO! 0BA7, you can additionally use the actual values of the following functions: ● Analog filter (0BA7 only) (Page 271) (actual value AQ) ● Average value (0BA7 only) (Page 276) (actual value AQ) ●...
Page 184
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter Note the defaults specified in the topic "Time response (Page 151)". Note T, T and T must all have the same timebase. View in programming mode (example): Press View in parameter assignment mode (example): LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.11 Weekly timer Short description The output is controlled by means of a configurable on/off date. The function supports any combination of weekdays. You select the active weekdays by hiding the inactive days. Note Because LOGO! 24/24o does not have a real-time clock, the weekly timer function is not available for both versions.
Page 186
LOGO! functions 4.4 Special functions list - SF Functional description Each weekly timer has three cams you can use to configure a time hysteresis. You specify the on- and off-times at the Cam parameters. The weekly timer sets the output at a certain on-time, if this is not already set.
Page 187
LOGO! functions 4.4 Special functions list - SF Days of the week The prefix "D=" (Day) has the following meaning: ● M: Monday ● T: Tuesday ● W: Wednesday ● T: Thursday ● F: Friday ● S: Saturday ● S: Sunday Uppercase letters indicate a specific day of the week.
Page 188
LOGO! functions 4.4 Special functions list - SF Weekly timer: Example The output of the weekly timer switch is to be set daily from 06:30 h to 08:00 h. The output should also be set every Tuesday from 03:10 h to 04:15 h, and on the weekends from 16:30 h to 23:10 h.
Page 189
LOGO! functions 4.4 Special functions list - SF Cam3 Cam No3 must set the output of the weekly timer switch every Saturday and Sunday from 16:30 h to 23:10 h. View in LOGO! 0BA6: View in LOGO! 0BA7: Result LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.12 Yearly timer Short description The output is controlled by means of a configurable on/off date. You can configure the timer to activate on a yearly, monthly, or user-defined time basis. With any mode, you can also configure the timer to pulse the output during the defined time period.
Page 191
LOGO! functions 4.4 Special functions list - SF Example 2:Yearly mode on, Monthly mode off, Pulse on, On Time = 2000-03-15, Off Time = 2099-**-**: Every year on March 15, the timer switches on for one cycle. Example 3: Yearly mode on, Monthly mode off, Pulse off, On Time = 2008-06-01, Off Time = 2010-08-31: On June 1 of 2008, 2009, and 2010 the timer output switches on and remains on until August 31.
Page 192
LOGO! functions 4.4 Special functions list - SF Example 5:Yearly mode off, Monthly mode off, Pulse off, On Time = 2008-06-01, Off Time = 2008-08-31: On June 1, 2008 the timer output switches on and remains on until August 31, 2010.
Page 193
LOGO! functions 4.4 Special functions list - SF Example 8:Yearly mode on, Monthly mode on, On Time = 2008-**-01, Off Time = 2010-**- 05: Starting in 2008, on the first day of each month the timer output switches on and switches off on the fifth day of the month.
Page 194
LOGO! functions 4.4 Special functions list - SF Backup of the real-time clock The internal real-time clock of LOGO! is buffered against power failure. The buffering time is influenced by the ambient temperature, and is typically 80 hours at an ambient temperature of 25°C.
LOGO! functions 4.4 Special functions list - SF 4.4.13 Astronomical clock (0BA7 only) Short description The astronomical clock function is used to set an output high when the current time of your LOGO! Base Module is between the time of sunrise (TR) and the time of sunset (TS). LOGO! automatically calculates these times based on the geographical location, the settings for automatic summertime/wintertime conversion, and the current time of the module.
Page 196
LOGO! functions 4.4 Special functions list - SF Timing diagram The following illustration is an example of the timing diagram where Ta refers to the current time of the LOGO! Base Module: Functional description The function calculates the TR and TS values at the input and sets Q when Ta (Ta is the current LOGO! Time) is between TR and TS;...
Page 197
LOGO! functions 4.4 Special functions list - SF View in parameter assignment mode (example): Press If automatic summertime/wintertime conversion is disabled, press and LOGO! shows the following view in parameter assignment mode (example): If automatic summertime/wintertime conversion is enabled and set to "EU" (for example), press and LOGO! shows the following view in parameter assignment mode (example): LOGO!
LOGO! functions 4.4 Special functions list - SF 4.4.14 Stopwatch (0BA7 only) Short description The stopwatch function counts the elapsed time between a start stopwatch signal and a stop stopwatch signal. Symbol in LOGO! Wiring Description A signal at input En begins counting elapsed time at analog output AQ.
Page 199
LOGO! functions 4.4 Special functions list - SF Timing diagram Functional description En = 1 and Lap = 0: Using the selected timebase, the stopwatch outputs the current time (CurT) to AQ. En = 1 and Lap = 1: The stopwatch leaves AQ at its last value when Lap = 0. This value is recorded as LapT for stopwatch pause time.
Page 200
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter View in programming mode (example): To change the timebase, press to move the cursor to "1". Press to select another timebase. To confirm your selection, press OK. Views in parameter assignment mode (example): LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.15 Up/down counter Short description An input pulse increments or decrements an internal value, depending on the parameter setting. The output is set or reset when a configured threshold is reached. The direction of count can be changed with a signal at input Dir.
Page 202
LOGO! functions 4.4 Special functions list - SF Parameters On and Off The on threshold On and the off threshold Off can be provided by the actual value of another already-programmed function. You can use the actual values of the following functions: ●...
Page 203
LOGO! functions 4.4 Special functions list - SF Timing diagram Functional description The internal counter increments (Dir = 0) or decrements (Dir = 1) by one count with every positive edge at input Cnt. You can use input R to reset the internal count value to the start value. As long as R = 1, the output is also 0 and the pulses at input Cnt are not counted.
Page 204
LOGO! functions 4.4 Special functions list - SF To set the start value, press to access the following screen form: If the referenced block (B021, in the example) returns a value that lies out of the valid range, the value is rounded to the next valid value. The view in parameter assignment mode (example): LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.16 Hours counter Short description A configured time is triggered with a signal at the monitoring input. The output is set when this time has expired. Symbol in LOGO! Wiring Description Input R A positive edge (0 to 1 transition) at input R resets output Q and sets a configured value MI at the counter for the duration of the time-to-go (MN).
Page 206
LOGO! functions 4.4 Special functions list - SF Parameter MI The maintenance interval MI can be provided by the actual value of another already- programmed function. The timebase of the referenced value is "h" (for hours) only. You can use the actual values of the following functions: ●...
Page 207
LOGO! functions 4.4 Special functions list - SF Timing diagram Functional description The hours counter monitors input En. When En = 1, LOGO! computes the time expired and the time-to-go MN. LOGO! shows these times in parameter assignment mode. Output Q is set when the time-to-go MN = 0.
Page 208
LOGO! functions 4.4 Special functions list - SF Limit value of OT The value of the operating hours in OT is retained when you reset the hours counter with a signal at input R. The hours counter OT will be reset to zero with a transition from 0 to 1 at Ral.
Page 209
LOGO! functions 4.4 Special functions list - SF For information on how to assign the actual value of another already-programmed function to a parameter, see the On-delay (Page 160) topic. View in parameter assignment mode: LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.17 Threshold trigger Short description The output is set and reset with two configurable threshold triggers. Symbol in LOGO! Wiring Description Input Fre The function counts the 0 to 1 transitions at input Fre. 1 to 0 transitions are not counted.
Page 211
LOGO! functions 4.4 Special functions list - SF If your LOGO! is a LOGO! 0BA7, you can additionally use the actual values of the following functions: ● Analog filter (0BA7 only) (Page 271) (actual value AQ) ● Average value (0BA7 only) (Page 276) (actual value AQ) ●...
Page 212
LOGO! functions 4.4 Special functions list - SF Calculation rule ● If the On threshold ≥ Off threshold, then: Q = 1, if f > On Q = 0, if f ≤ Off. ● If the On threshold < Off threshold, then Q = 1 if On ≤...
LOGO! functions 4.4 Special functions list - SF 4.4.18 Analog threshold trigger Short description The output is set and reset at two configurable thresholds. Symbol in LOGO! Wiring Description Input Ax Input Ax is one of the following analog signals: AI1 to AI8 (*) •...
Page 214
LOGO! functions 4.4 Special functions list - SF If your LOGO! is a LOGO! 0BA7, you can additionally use the actual values of the following functions: ● Analog filter (0BA7 only) (Page 271) (actual value AQ) ● Average value (0BA7 only) (Page 276) (actual value AQ) ●...
Page 215
LOGO! functions 4.4 Special functions list - SF Calculation rule ● If the On threshold ≥ Off threshold, then: Q = 1, if the actual value Ax > On Q = 0, if the actual value Ax ≤ Off. ● If the On threshold < Off threshold, then Q = 1 if On ≤...
LOGO! functions 4.4 Special functions list - SF 4.4.19 Analog differential trigger Short description The output is set and reset depending on a configurable threshold and a differential value. Symbol in LOGO! Wiring Description Input Ax Input Ax is one of the following analog signals: AI1 to AI8 (*) •...
Page 217
LOGO! functions 4.4 Special functions list - SF Timing diagram B: Function with positive difference Δ Functional description The function fetches the analog signal at input Ax. Ax is multiplied by the value of the A (gain) parameter, and the value at parameter B (offset) is added to product, i.e.
Page 218
LOGO! functions 4.4 Special functions list - SF View in parameter assignment mode (example): Press 4.4.20 Analog comparator Short description The output is set and reset depending on the difference Ax - Ay and on two configurable thresholds. Symbol in LOGO! Wiring Description Inputs Ax and Ay...
Page 219
LOGO! functions 4.4 Special functions list - SF Gain and offset parameters For more information on the gain and offset parameters, refer to topic "Calculating the gain and offset of analog values (Page 154)". Parameters On and Off The on threshold On and the off threshold Off can be provided by the actual value of another already-programmed function.
Page 220
LOGO! functions 4.4 Special functions list - SF Parameter p (number of decimals) Applies only to Ax, Ay, On, Off and Δ values displayed in a message text. Does not apply to the comparison of on and off values! (The compare function ignores the decimal point.) Timing diagram Functional description...
Page 221
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter The gain and offset parameters are used to adapt the sensors to the relevant application. View in programming mode: Press Example In a heating control system, the supply T and return line temperatures T are to be compared, for example with a sensor at AI2.
Page 222
LOGO! functions 4.4 Special functions list - SF Configuration (example): Press View in parameter assignment mode (example): Press View in the message text (example): Reducing the input response of the analog comparator You can selectively delay the output of an analog comparator by means of the "On-delay" and "Off-delay"...
Page 223
LOGO! functions 4.4 Special functions list - SF Function block diagram 4.4.21 Analog watchdog Short description This special function saves the process variable of an analog input to memory, and sets the output when the output variable exceeds or drops below this stored value plus a configurable offset.
LOGO! functions 4.4 Special functions list - SF Gain and offset parameters For more information on gain and offset parameters, refer to topic "Calculating the gain and offset of analog values (Page 154)". Parameters Delta1 and Delta2 The Delta1 and Delta2 parameters can be provided by the actual value of another already- programmed function.
Page 225
LOGO! functions 4.4 Special functions list - SF Parameter p (number of decimals) Applies only to the Aen, Ax, Δ and Δ values displayed in a message text. Timing diagram Functional description A 0 to 1 transition at input En saves the value of the signal at the analog input Ax. This saved process variable is referred to as "Aen".
LOGO! functions 4.4 Special functions list - SF View in parameter assignment mode (example): 4.4.22 Analog amplifier Short description This special function amplifies the value of an analog input and outputs the result at an analog output. Symbol in LOGO! Wiring Description Input Ax...
Page 227
LOGO! functions 4.4 Special functions list - SF Gain and offset parameters Please note the information on gain and offset parameters in topic Calculating the gain and offset of analog values (Page 154). Parameter p (number of decimals) Applies only to the AQ value in a message text. Functional description The function fetches the analog signal of input Ax.
LOGO! functions 4.4 Special functions list - SF View in parameter assignment mode (example): 4.4.23 Latching relay Short description Input S sets output Q, input R resets output Q again. Symbol in LOGO! Wiring Description Input S You set output Q with a signal at input S. Input R You reset output Q with a signal at input R.
LOGO! functions 4.4 Special functions list - SF 4.4.24 Pulse relay Short description A short pulse at the input sets and resets the output. Symbol in LOGO! Wiring Description Input Trg You set and reset output Q with a signal at input Trg (Trigger).
Page 230
LOGO! functions 4.4 Special functions list - SF Status diagram 0 ->1 0 ->1 0 ->1 0 ->1 0 ->1 0 ->1 0 ->1 0 ->1 0 ->1 0 ->1 *: RS or SR **: Triggering signal is effective, because S and R = 0. Depending on your configuration, either input R takes priority over input S (input S is not effective when R = 1), or vice versa (input R is not effective when S = 1).
Page 231
LOGO! functions 4.4 Special functions list - SF 4.4.25 Message texts Short description With the message text function block, you can configure a message that includes text and other parameters for LOGO! to display in RUN mode. You can configure simple message texts from the LOGO! onboard display. LOGO!Soft Comfort provides an extended set of features for message texts: bar graph representation of data, names for digital I/O states and more.
Page 232
LOGO! functions 4.4 Special functions list - SF ● Current Character Set: which character set is selected for the display of message texts Note Message texts supported by LOGO! 0BA5 will display on the LOGO! TD only when the following conditions are met: - CharSet1 is selected and set to ISO8859-1 - Current Character Set "CurrCharSet"...
Page 233
LOGO! functions 4.4 Special functions list - SF Programming Global Message Text Parameters Message Text Function Block Symbol in LOGO! Wiring Description Input En A 0 to 1 transition at input En (Enable) starts the output of the message text. Input P P: Priority of the message text Range of values: 0...127...
Page 234
LOGO! functions 4.4 Special functions list - SF Symbol in LOGO! Wiring Description Parameter Text: Input of the message text Par: Parameter or actual value of another already- programmed function (see "Visible parameters or process variables") Time: Display of the continuously updated time-of-day Date: Display of the continuously updated date EnTime: Display of the time of the 0 to 1 transition of the signal at input En...
Page 235
LOGO! functions 4.4 Special functions list - SF Restriction A maximum of 50 message texts are available. Functional description When LOGO! is in RUN mode, LOGO! displays the message text that you have configured along with its parameter values upon a 0 to 1 transition of the signal at input En. Based on your setting for the message destination, the message text displays on the LOGO! onboard display, the LOGO! TD, or both.
Page 236
LOGO! functions 4.4 Special functions list - SF Example This is how two message texts could be shown: Message Ticking You can configure message text lines to tick or not tick. Two types of message ticking exist: ● Character by character ●...
Page 237
LOGO! functions 4.4 Special functions list - SF Example: Tick Message Character by Character The following illustration shows a one-line, 24-character message text: If you set this message to tick "character by character" with a tick interval of 0.1 seconds, then the initial appearance of this message line on the LOGO! onboard display or LOGO! TD is as shown in this illustration: After 0.1 second, one character of the message line ticks.
Page 238
LOGO! functions 4.4 Special functions list - SF Input P configuration From the input P, you configure the following characteristics of the message text: ● Priority ● Acknowledgement ● Message destination ● Tick type, and tick setting for each line To configure the priority and the acknowledgment (programming mode): 1.
Page 239
LOGO! functions 4.4 Special functions list - SF 5. If your message text has lines that tick, press to position the cursor on the "Ch by Ch" line and then press to select either "Ch by Ch" or "Ln by Ln" for the TickType. 6.
LOGO! functions 4.4 Special functions list - SF Special function Parameter or process variable visible in a message text Stopwatch TB, Ta, Lap, AQ Counter Up/down counter Cnt, On, Off Hours counter MI, Q, OT Threshold trigger , On, Off, G_T Analog Analog threshold trigger On, Off, A, B, Ax...
Page 241
LOGO! functions 4.4 Special functions list - SF Editing message texts Only simple message texts can be edited from the LOGO! Basic. Text messages created in LOGO!Soft Comfort that make use of new features such as bar graphs, I/O status names, and others can not be edited from the LOGO! Basic.
Page 242
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter View in programming mode: Press to select a line for the message text. Press to select the letter to be displayed in the text. To move the cursor from one position to the other, press and .
LOGO! functions 4.4 Special functions list - SF 4.4.26 Softkey Short description This special function has the effect of a mechanical pushbutton or switch. Symbol in LOGO! Wiring Description Input En Output Q is set with a 0 to 1 transition of the signal at input En (Enable), and if 'Switch=On' was confirmed in parameter assignment mode.
Page 244
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter View in programming mode (example): 1. Select the 'Softkey' function. 2. Select input En and confirm with OK. The cursor is now positioned below 'Par'. 3. Change to the input mode of 'Par': Confirm with OK (the cursor is now positioned to 'On') To change 'Par' to 'Switch' action and the initialization status after the program start: 4.
LOGO! functions 4.4 Special functions list - SF Let us assume you want to set 'Switch' (On). 1. Change to the editing mode: Confirm with OK (the cursor is now positioned on 'Off') 2. To change from 'Off' to 'On': Press 3.
Page 246
LOGO! functions 4.4 Special functions list - SF Functional description The function reads the value at input In with a positive edge (0 to 1 transition) at input Trg (Trigger). If your LOGO! is a LOGO! 0BA6, this value is applied to shift register bit S1 or S8, depending on the shifting direction: ●...
Page 247
LOGO! functions 4.4 Special functions list - SF Timing diagram The timing diagram for the shift register in LOGO! 0BA6 is shown as follows: The timing diagram example for the shift register in LOGO! 0BA7 is shown as follows: Setting the Par parameter (0BA6) View in programming mode: Press LOGO!
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter (0BA7) View in programming mode (example): The view above indicates that the configured shift register bit is S4.8. This special function is not available in parameter assignment mode. 4.4.28 Analog multiplexer Short description...
Page 249
LOGO! functions 4.4 Special functions list - SF Parameters V1...V4 The analog values for the parameters V1...V4 can be derived from another already- programmed function. You can use the actual values of the following functions: ● Analog comparator (Page 218) (actual value Ax – Ay) ●...
Page 250
LOGO! functions 4.4 Special functions list - SF Timing diagram Functional description If input En is set, then the function issues one of four possible analog values V1 to V4 at the output AQ, depending on the value of S1 and S2. If the input En is not set, then the function issues the analog value 0 at output AQ.
LOGO! functions 4.4 Special functions list - SF 4.4.29 Analog Ramp Short description The Analog Ramp instruction allows the output to be changed from the current level to the selected level at a specified rate. Symbol in LOGO! Wiring Description Input En A change in the status from 0 to 1 at input En (Enable) applies the start/stop level (Offset "B"...
Page 252
LOGO! functions 4.4 Special functions list - SF Symbol in LOGO! Wiring Description Parameter Level 1 and Level 2: Levels to be reached Range of values for each level: -10,000 to +20,000 MaxL: Maximum value that must not be exceeded under any circumstances.
LOGO! functions 4.4 Special functions list - SF Parameters L1, L2 The analog values for the parameters L1 and L2 can be derived from another already- programmed function. You can use the actual values of the following functions: ● Analog comparator (Page 218) (actual value Ax – Ay) ●...
Page 254
LOGO! functions 4.4 Special functions list - SF Timing diagram for AQ Functional description If the input En is set, then the function sets the current level to StSp + Offset "B" for 100 ms. Then, depending on the connection of Sel, the function runs from the level StSp + Offset "B" to either level 1 or level 2 at the acceleration set in Rate.
Page 255
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter View in programming mode (example): View in parameter assignment mode: LOGO! Manual, 04/2011, A5E03556174-01...
Page 256
LOGO! functions 4.4 Special functions list - SF 4.4.30 PI controller Short description Proportional-action and integral-action controllers. You can use both types of controller individually or combined. Symbol in LOGO! Wiring Description Input A/M Set the mode of the controller: 1: automatic mode 0: manual mode Input R...
Page 257
LOGO! functions 4.4 Special functions list - SF Symbol in LOGO! Wiring Description Output AQ This special function has an analog output (= manipulated variable). This output can only be connected with the analog input of a function, an analog flag or an analog output connector (AQ1, AQ2).
Page 258
LOGO! functions 4.4 Special functions list - SF Select the required function by the block number. For information on parameter defaults, refer to the On-delay (Page 160) topic. Parameters KC, TI Please note: ● If parameter KC has value 0, the "P" function (proportional control) will not be executed. ●...
Page 259
LOGO! functions 4.4 Special functions list - SF Functional description If the input A/M is set to 0, then the special function issues output AQ with the value that you set with parameter Mq. If the input A/M is set to 1, then automatic mode commences. As an integral sum the value Mq is adopted, the controller function begins the calculations.
Page 260
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter View in programming mode (example): View in parameter assignment mode: LOGO! Manual, 04/2011, A5E03556174-01...
LOGO! functions 4.4 Special functions list - SF 4.4.31 Pulse Width Modulator (PWM) Short description The Pulse Width Modulator (PWM) instruction modulates the analog input value Ax to a pulsed digital output signal. The pulse width is proportional to the analog value Ax. Symbol in LOGO! Wiring Description...
Page 262
LOGO! functions 4.4 Special functions list - SF If your LOGO! is a LOGO! 0BA7, you can additionally use the actual values of the following functions: ● Analog filter (0BA7 only) (Page 271) (actual value AQ) ● Average value (0BA7 only) (Page 276) (actual value AQ) ●...
Page 263
LOGO! functions 4.4 Special functions list - SF Examples with Timing Diagrams The following examples show how the PWM instruction modulates a digital output signal from the analog input value: Example 1 Analog input value: 500 (range 0 ...1000) Periodic time T: 4 seconds The digital output of the PWM function is 2 seconds high, 2 seconds low, 2 seconds high, 2 seconds low and continues in that pattern as long as parameter "En"...
Page 264
LOGO! functions 4.4 Special functions list - SF Setting the Par Parameter The following illustration shows the view in programming mode that corresponds to the first example: Use the keys to navigate to the Min, Max, A, B, T and P parameters. For each digit of a value, use the keys to scroll through value choices.
LOGO! functions 4.4 Special functions list - SF 4.4.32 Mathematic instruction Short description The mathematic instruction block calculates the value AQ of an equation formed from the user-defined operands and operators. Symbol in LOGO! Wiring Description Input En A change in the status from 0 to 1 at input En (Enable) enables the mathematic instruction function block.
Page 266
LOGO! functions 4.4 Special functions list - SF If your LOGO! is a LOGO! 0BA7, you can additionally use the actual values of the following functions: ● Analog filter (0BA7 only) (Page 271) (actual value AQ) ● Average value (0BA7 only) (Page 276) (actual value AQ) ●...
Page 267
LOGO! functions 4.4 Special functions list - SF Functional Description The mathematic instruction function combines the four operands and three operators to form an equation. The operator can be any one of the four standard operators: +, -, *, or /. For each operator, you must set a unique priority of High (H), Medium (M), or Low (L).
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter The following illustration shows the view in programming mode that corresponds to the first example (12 + (6 / 3)) - 1: Use the keys to navigate between the operand value, operator, and operation priority.
Page 269
LOGO! functions 4.4 Special functions list - SF Parameter MathBN The value for the MathBN parameter references the block number of an already- programmed mathematic instruction function block. Functional description The mathematic instruction error detection block sets the output when the referenced mathematic instruction function block has an error.
Page 270
LOGO! functions 4.4 Special functions list - SF Setting the Par parameter The parameters MathBN, AutoRst, and Err can be set in programming mode or parameter assignment mode. View in programming mode (example): Use the keys to navigate between the MathBN, AutoRst, and Err parameters. To change a value, use the keys to scroll through value choices for each value.
LOGO! functions 4.4 Special functions list - SF 4.4.34 Analog filter (0BA7 only) Short Description The analog filter function smooths the analog input signal. Symbol in LOGO! Wiring Description Input Ax is the analog input signal to be smoothed. Input Ax is one of the following analog signals: AI1 to AI8 (*) •...
Page 272
LOGO! functions 4.4 Special functions list - SF Functional description The function fetches the analog signal at input Ax based on the set number of samples (Sn) and outputs the average value. Note There are a maximum of eight analog filter function blocks available for use in the circuit program in LOGO! 0BA7.
LOGO! functions 4.4 Special functions list - SF 4.4.35 Max/Min (0BA7 only) Short description The Max/Min function records the maximum or minimum value of Ax. Symbol in LOGO! Wiring Description A signal at input En (Enable) outputs an analog value to AQ, depending on the settings of parameters ERst and Mode.
LOGO! functions 4.4 Special functions list - SF Parameter Mode The value for parameter Mode can be provided by the actual value of another already- programmed function. You can use the actual values of the following functions: ● Analog comparator (Page 218) (actual value Ax – Ay) ●...
Page 275
LOGO! functions 4.4 Special functions list - SF Timing diagram (example) Functional description ERst = 1 and En = 0: The function sets the AQ value to 0. ERst = 1 and En = 1: The function outputs a value at AQ, depending on the settings of Mode and S1.
Page 276
LOGO! functions 4.4 Special functions list - SF 4.4.36 Average value (0BA7 only) Short description The average value function calculates the average value of an analog input over a configured time period. Symbol in LOGO! Wiring Description A change in status from 0 to 1 transition at input En starts the average value function.
Page 277
LOGO! functions 4.4 Special functions list - SF Timing diagram (example) Functional description This function fetches the analog input signal according to both the set sampling time St and the number of samples Sn and outputs the average value. A signal at R sets AQ to 0. Setting the Par parameter View in programming mode (example): LOGO!
Page 278
LOGO! functions 4.4 Special functions list - SF LOGO! Manual, 04/2011, A5E03556174-01...
UDF (User-Defined Function) (0BA7 only) User-Defined Function (UDF) LOGO!Soft Comfort V7.0 provides you with a new option for creating circuit programs - the UDF (User-Defined Function) editor. You can save circuit programs created in the UDF editor as individual UDF blocks for use in a circuit program in the UDF or FBD editor. A UDF block is a preconfigured circuit program that you create.
Page 280
UDF (User-Defined Function) (0BA7 only) Editing elements to the inputs of a UDF block: 1. Switch LOGO! to programming mode. ① 2. Select " " on the main menu: Press ① 3. Confirm " ": Press OK ② 4. Select " ": Press ②...
Page 281
UDF (User-Defined Function) (0BA7 only) 8. Press until LOGO! steps into the screen form for the first UDF block U01. ④ 9. Press to move the cursor to " ", then press OK. The cursor appears in a flashing solid square.
Page 282
UDF (User-Defined Function) (0BA7 only) Editing elements to the outputs of a UDF block: If LOGO! shows the following screen form as shown in step 10 above and you want to change the element connected to "1" where "1" indicates the first output of the UDF block U01 that is connected to Q1, follow these steps: 1.
Page 283
UDF (User-Defined Function) (0BA7 only) Setting the Par parameter You can edit the Par parameter for your UDF block if you configured parameters for this UDF using LOGO!Soft Comfort; otherwise, you cannot edit parameters for UDF blocks. In this case, the UDF block display shows no "Par": If your UDF block contains the Par parameter, you can edit the parameters as described below: View in programming mode (example):...
Page 284
UDF (User-Defined Function) (0BA7 only) 4. Press to see the final view: You can also edit UDF parameter settings in parameter assignment mode in the same way as you do in programming mode. LOGO! Manual, 04/2011, A5E03556174-01...
Data Log (0BA7 only) You can configure a maximum of one Data Log for your circuit program using LOGO!Soft Comfort. The Data Log is used to record process measurement variables of the selected function blocks. You can add the Data Log instruction to your circuit program as you do with a function block.
Page 286
Data Log (0BA7 only) 3. You can see that a flag M1 is connected to the Data Log block L1. Press OK or move the cursor to "M" in "M1". Press OK. LOGO! shows the following display: 4. You can select a different element from available lists and press OK to confirm. In the following example, you can see that this Data Log block L1 is now connected to the B3 block: Note...
Configuring LOGO! Parameter assignment refers to the configuration of the block parameters. You can set delay times for time functions, the switching times of timers, counter threshold values, the monitoring interval of an hours counter, the on and off thresholds of the trigger, and more. You can configure the parameters ●...
Configuring LOGO! 7.1 Selecting parameter assignment mode Selecting parameter assignment mode Press ESC to change from RUN to parameter assignment mode: Note The following applies to earlier device versions up to 0BA2: you open parameter assignment mode by pressing ESC+OK. LOGO! changes to parameter assignment mode and opens the parameter assignment menu: Description of the four menu items of the parameter assignment menu...
Page 289
Configuring LOGO! 7.1 Selecting parameter assignment mode LOGO! shows the main menu of the programming mode: LOGO! 0BA6 main menu LOGO! 0BA7 main menu ● Menu command ② For information on the various parameters, refer to the topics "Parameters (Page 290)", "Selecting the parameters (Page 291)", and "Modifying parameters (Page 292)".
Configuring LOGO! 7.1 Selecting parameter assignment mode 7.1.1 Parameters Note The following discourse on parameters assumes that the respective default parameter mode ("+") has been maintained. This is a prerequisite for viewing and editing parameters in the parameter assignment mode! See the "Parameter protection (Page 153)" topic and the "Synchronization (Page 116)"...
Configuring LOGO! 7.1 Selecting parameter assignment mode 7.1.2 Selecting the parameters To select a parameter: 1. On the parameter assignment menu, select 'Set Param': Press 2. Confirm with OK. LOGO! shows the first parameter. If no parameter can be set, you can press ESC to return to the parameter assignment menu.
Configuring LOGO! 7.1 Selecting parameter assignment mode 7.1.3 Modifying parameters You first select the parameter you want to edit (Page 291). You change the value of the parameter in the same way as you did in programming mode: 1. Move the cursor to the point at which you want to make the change: Press 2.
Page 293
Configuring LOGO! 7.1 Selecting parameter assignment mode Current value of a counter View of a counter parameter in parameter assignment mode: You can change the on/off threshold. This does not apply if the on or off threshold represents the result of another function (in the "Up/down counter (Page 201)" topic, this is B021). Current value of an hour counter View of an hour counter parameter in parameter assignment mode: You can edit the configured time interval MI.
Configuring LOGO! 7.2 Setting the default values for LOGO! Setting the default values for LOGO! You can set the following default values for a LOGO! Basic: Clock settings You can set the default values for time-of-day and date (Page 295) , summertime/wintertime conversion (Page 111) and synchronization (Page 116): ●...
Configuring LOGO! 7.2 Setting the default values for LOGO! 7.2.1 Setting the time of day and date (LOGO! ... C) You can set the time of day and the date ● in parameter assignment mode by means of the set menu ("Clock" menu item) ●...
Configuring LOGO! 7.2 Setting the default values for LOGO! To set the time of day and the date in programming mode: If you want to set the time of day and the date in programming mode, select 'Setup' in the main menu, then menus 'Clock' and 'Set Clock'.
Page 297
Configuring LOGO! 7.2 Setting the default values for LOGO! To set the backlight choice in programming mode: You can set the default value for the backlight in programming mode only. ① 1. In the main menu, select " " : Press ①...
Configuring LOGO! 7.2 Setting the default values for LOGO! 7.2.3 Setting the menu language The language of the LOGO! menus can be one of ten predefined languages: CN (Chinese) DE (German) EN (English) ES (Spanish) FR (French) IT (Italian) NL (Dutch) RU (Russian) TR (Turkish) JP (Japanese)
Configuring LOGO! 7.2 Setting the default values for LOGO! 7.2.4 Setting the number of AIs in the LOGO! Basic LOGO! 12/24RC/RCo/RCE, LOGO! 24/24o and LOGO! 24C/24Co support up to four onboard inputs that can be used as either digital or analog inputs (0 ...10V). Inputs I7 (AI1) and I8 (AI2) are available as analog inputs by default, whether you use them or not.
Configuring LOGO! 7.2 Setting the default values for LOGO! 7.2.5 Setting the start screen You can select the default setting for the start screen that LOGO! and the LOGO! TD will display in RUN mode. You make this selection from LOGO! in parameter assignment mode. To select the start screen: 1.
Page 301
Configuring LOGO! 7.2 Setting the default values for LOGO! LOGO! displays your selection. Power the LOGO! Basic off then on to make your changes take effect. When LOGO! is in RUN mode, both LOGO! and the LOGO! TD will display the start screen that you selected. LOGO! Manual, 04/2011, A5E03556174-01...
Page 302
Configuring LOGO! 7.2 Setting the default values for LOGO! LOGO! Manual, 04/2011, A5E03556174-01...
Applicable cards LOGO! 0BA6 provides the following cards for program storage and real-time clock backup: ● LOGO! Memory Card ● LOGO! Battery Card ● LOGO! Memory/Battery Card Each of the three cards is color-coded to make them easily distinguishable from one another. They also vary in size.
Page 304
Applicable cards Note You do not need a memory card or combined memory/battery card to backup the circuit program in your LOGO! The LOGO! circuit program is automatically stored in nonvolatile memory when you exit the programming mode. You can backup the LOGO! circuit program on a memory card, a combined memory/battery card, or a standard SD card.
Applicable cards 8.1 Security function (CopyProtect) Security function (CopyProtect) The security function provides copy protection for circuit programs on memory cards, combined memory/battery cards or SD cards. Unprotected cards You can edit circuit programs without restrictions and exchange data between the card and the device.
Page 306
Applicable cards 8.1 Security function (CopyProtect) Assigning a security function To assign a circuit program and copy protection function to the card, open the programming mode and select "Card". 1. Switch LOGO! to programming mode (ESC / >Stop). 2. Select the 'Card' command: Press 3.
Applicable cards 8.2 Inserting and removing the card from LOGO! Inserting and removing the card from LOGO! When you remove a LOGO! memory card, a combined memory/battery card, or an SD card that contains a circuit program with copy protection attributes, note the following: The circuit program stored on the card can only be executed if the card remains inserted during system runtime.
Page 308
Applicable cards 8.2 Inserting and removing the card from LOGO! To remove a battery card, or combined memory/battery card, slide a screwdriver with a 3- mm blade into the slot on the upper surface of the card until it engages in the back, then with the screwdriver engaged, pull the card out with your hand.
Applicable cards 8.3 Copying data from LOGO! to the card Copying data from LOGO! to the card Copying data from LOGO! to the card manually To manually copy the circuit program to the memory card, combined battery/memory card, or the SD card, follow these steps: 1.
Page 310
Applicable cards 8.3 Copying data from LOGO! to the card Copying data from LOGO! 0BA7 to the SD card automatically LOGO!Soft Comfort V7.0 provides an option for automatically copying the circuit program to the SD card when transferring the circuit program to LOGO! 0BA7. This option is available in the dialog for PC->LOGO! transfer.
Applicable cards 8.4 Copying data from the card to LOGO! Copying data from the card to LOGO! You can copy a circuit program from a compatible memory card, combined memory/battery card, or an SD card to LOGO! in one of the following ways: ●...
Page 312
Applicable cards 8.4 Copying data from the card to LOGO! Copying by means of the "Card" menu For information on the replacement of a memory card, combined memory/battery card, or an SD card, also note the information in the topic "Inserting and removing the card from LOGO! (Page 307)".
LOGO! software LOGO! software LOGO!Soft Comfort is available as a programming package for the PC. This software provides many features, for example: ● A graphic interface for offline creation of your circuit program by means of Ladder Diagram (contact chart / circuit diagram) or Function Block Diagram (function chart) ●...
Page 314
LOGO! software 9.1 LOGO! software The LOGO! alternatives As you can see, LOGO!Soft Comfort represents an alternative to conventional engineering methods, with several advantages: ● You can develop the circuit program on your PC. ● You simulate the circuit program on your computer and verify its functions before you actually implement it in your system.
LOGO! software 9.2 Connecting LOGO! to a PC Connecting LOGO! to a PC Connecting the PC cable (for LOGO! 0BA6 only) To connect LOGO! to a PC, you need the LOGO! PC cable. See the Appendix "Order numbers (Page 363)". Turn the power off to the LOGO! Base Module.
Page 316
LOGO! software 9.2 Connecting LOGO! to a PC Note You can switch earlier versions up to 0BA3 with/without display to PC ↔ LOGO mode as follows: 1. Switch off the power supply to LOGO!. 2. Remove the cover or the memory, battery, or combined memory/battery card and connect the cable to this socket.
Applications Note LOGO! sample applications are available to all our customers free of charge on the Siemens LOGO! website (http://www.siemens.com/logo) (go to Products & Solutions → Applications → Application Examples). The examples provided are not guaranteed to be error-free; they serve as general information about the fields of application for LOGO!, and may be different from user-specific solutions.
Page 318
● Connect LOGO! directly to your domestic installation; the integrated power supply makes it possible. Do you want more Info? For more information about LOGO!, see the Siemens web page (as mentioned in the first paragraph of the Note in this chapter). Do you have any suggestions? There are definitely many more useful applications for LOGO!.
Technical data General technical data Criterion Tested in accordance with Values LOGO! Base Modules (0BA6) (LOGO! Basic or LOGO! Pure) 72 x 90 x 55 mm Approx. 190 g Dimensions (WxHxD) on a 35 mm profile rail 4 Weight module widths or wall mounting Installation LOGO! Base Modules (0BA7) (LOGO! Basic)
Page 320
Technical data A.1 General technical data Criterion Tested in accordance with Values Ambient mechanical conditions Degree of protection IP 20 for LOGO! Base Modules, expansion modules, and the LOGO! TD excluding the TD front panel IP 65 for LOGO! TD front panel Vibrations: IEC 60068-2-6 5 ...
Technical data A.2 Technical data: LOGO! 230... Technical data: LOGO! 230... LOGO! 230RC LOGO! 230RCE LOGO! 230RCo Power supply Input voltage 115 ... 240 V AC/DC 115 ... 240 V AC/DC Permissible range 85 ... 265 V AC 85 ... 265 V AC 100 ...
Page 322
Technical data A.2 Technical data: LOGO! 230... LOGO! 230RC LOGO! 230RCE LOGO! 230RCo Input current at Signal 0 < 0.03 mA AC < 0.03 mA AC • • • Signal 1 > 0.08 mA AC > 0.08 mA AC • •...
Page 323
The data was determined with the following devices: Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 uncompensated. Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 parallel compensated with 7μF. Siemens fluorescent tubes 58W VVG 5LZ 501 1-1N with ballast. LOGO!
Technical data A.3 Technical data: LOGO! DM8 230R and LOGO! DM16 230R Technical data: LOGO! DM8 230R and LOGO! DM16 230R LOGO! DM8 230R LOGO! DM16 230R Power supply Input voltage 115...240 V AC/DC 115 ... 240 V AC/DC Permissible range 85 ...
Page 325
Technical data A.3 Technical data: LOGO! DM8 230R and LOGO! DM16 230R LOGO! DM8 230R LOGO! DM16 230R Delay time at 0 to 1: 120V AC typ. 50 ms typ. 50 ms • • • 240 V AC typ. 30 ms typ.
The data was determined with the following devices: Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 uncompensated. Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 parallel compensated with 7μF. Siemens fluorescent tubes 58W VVG 5LZ 501 1-1N with ballast. Technical data: LOGO! 24...
Page 327
Technical data A.4 Technical data: LOGO! 24... LOGO! 24 LOGO! 24C LOGO! 24Co LOGO! 24o Delay time at 0 to 1 typ. 1.5 ms typ. 1.5 ms <1.0 ms (I3 ... I6) <1.0 ms (I3 ... I6) typ. 1.5 ms typ.
Technical data A.5 Technical data: LOGO! DM8 24 and LOGO! DM16 24 LOGO! 24 LOGO! 24C LOGO! 24Co LOGO! 24o Ohmic load/lamp load 10 Hz 10 Hz Inductive load 0.5 Hz 0.5 Hz When LOGO! 24/24o, LOGO! 24C/24Co, LOGO! DM8 24 or LOGO! DM16 24 are switched on, signal 1 is sent to the digital outputs for about 50 μs.
Page 329
Technical data A.5 Technical data: LOGO! DM8 24 and LOGO! DM16 24 LOGO! DM8 24 LOGO! DM16 24 Number Output type Transistor, Transistor, current-sourcing current-sourcing Electrical isolation In groups of Control of a digital input Output voltage ≤ Supply voltage ≤...
Technical data A.6 Technical data: LOGO! 24RC... Technical data: LOGO! 24RC... LOGO! 24RC LOGO! 24RCo Power supply Input voltage 24 V AC/DC Permissible range 20.4 ... 26.4 V AC 20.4 ... 28.8 V DC Reverse polarity protection Permissible mains frequency 47 ...
Page 331
The data was determined with the following devices: Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 uncompensated. Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 parallel compensated with 7μF. Siemens fluorescent tubes 58W VVG 5LZ 501 1-1N with ballast. LOGO!
Technical data A.7 Technical data: LOGO! DM8 24R and LOGO! DM16 24R Technical data: LOGO! DM8 24R and LOGO! DM16 24R LOGO! DM8 24R LOGO! DM16 24R Power supply Input voltage 24 V AC/DC 24 V DC Permissible range 20.4 ... 26.4 V AC 20.4 ...
Page 333
The data was determined with the following devices: Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 uncompensated. Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 parallel compensated with 7μF. Siemens fluorescent tubes 58W VVG 5LZ 501 1-1N with ballast. LOGO!
Technical data A.8 Technical data: LOGO! 12/24... LOGO! DM8 12/24R Technical data: LOGO! 12/24... LOGO! DM8 12/24R LOGO! 12/24RC LOGO! DM8 12/24R LOGO! 12/24RCo LOGO! 12/24RCE Power supply Input voltage 12/24 V DC 12/24 V DC Permissible range 10.8 ... 28.8 V DC 10.8 ...
Page 335
Technical data A.8 Technical data: LOGO! 12/24... LOGO! DM8 12/24R LOGO! 12/24RC LOGO! DM8 12/24R LOGO! 12/24RCo LOGO! 12/24RCE Input current at < 0.85 mA (I3...I6) < 0.85 mA Signal 0 • < 0.05 mA (I1, I2, I7, I8) > 1.5 mA (I3... I6) >...
Page 336
The data was determined with the following devices: Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 uncompensated. Siemens fluorescent tubes 58W VVG 5LZ 583 3-1 parallel compensated with 7μF. Siemens fluorescent tubes 58W VVG 5LZ 501 1-1N with ballast. LOGO!
Technical data A.9 Switching capacity/service life of the relay outputs Switching capacity/service life of the relay outputs Switching capacity and service life of the contacts with ohmic loading (heating): Switching capacity and service life of the contacts with high inductive load to IEC 947-5-1 DC 13/AC 15 (contactors, solenoid coils, motors): LOGO! Manual, 04/2011, A5E03556174-01...
Technical data A.10 Technical data: LOGO! AM2 A.10 Technical data: LOGO! AM2 LOGO! AM2 Power supply Input voltage 12/24 V DC Permissible range 10.8 ... 28.8 V DC Power consumption 25 ... 50 mA Voltage failure buffering typ. 5 ms Power loss at 12 V 0.3 ...
Technical data A.11 Technical data: LOGO! AM2 PT100 A.11 Technical data: LOGO! AM2 PT100 LOGO! AM2 PT100 Power supply Input voltage 12/24 V DC Permissible range 10.8 ... 28.8 V DC Power consumption 25 ... 50 mA Voltage failure buffering typ.
Technical data A.12 Technical data: LOGO! AM2 RTD A.12 Technical data: LOGO! AM2 RTD LOGO! AM2 RTD Power supply Input voltage 12/24 V DC Permissible range 10.8 ... 28.8 V DC Power consumption 30 ... 40 mA Voltage failure buffering typ.
Technical data A.13 Technical data: LOGO! AM2 AQ LOGO! AM2 RTD Cable length (shielded) max. 10 m Interference frequency 55 Hz suppression A.13 Technical data: LOGO! AM2 AQ LOGO! AM2 AQ Power supply Input voltage 24 V DC Permissible range 20.4 ...
Technical data A.14 Technical data: CM EIB/KNX A.14 Technical data: CM EIB/KNX CM EIB/KNX Mechanical data Dimensions (WxHxD) 36 x 90 x 55 mm Weight Approx. 107 g Installation on a 35 mm profile rail 2 module widths or wall mounting, must be mounted as the last module on the right of LOGO! Power supply...
Technical data A.15 Technical data: CM AS Interface A.15 Technical data: CM AS Interface CM AS Interface Mechanical data Dimensions (WxHxD) 36 x 90 x 58 mm Weight Approx. 90 g Installation on a 35 mm profile rail 2 module widths or wall mounting, must be mounted as the last module on the right of LOGO! Power supply...
Technical data A.16 Technical data: LOGO!Power 12 V A.16 Technical data: LOGO!Power 12 V LOGO! Power 12 V is a primary-switched power supply unit for LOGO! devices. Two current ranges are available. LOGO! Power LOGO! Power 12 V / 1.9 A 12 V / 4.5 A Input data Input voltage...
Technical data A.17 Technical data: LOGO!Power 24 V A.17 Technical data: LOGO!Power 24 V LOGO! Power 24 V is a primary-switched power supply module for LOGO! devices. Two current ranges are available. LOGO! Power LOGO! Power 24 V / 1.3 A 24 V / 2.5 A Input data Input voltage...
Technical data A.18 Technical data: LOGO! Contact 24/230 LOGO! Power LOGO! Power 24 V / 1.3 A 24 V / 2.5 A Installation On 35 mm DIN rail, snap-on Dimensions in mm (WxHxD) 54 x 80 x 55 72 x 90 x 55 Approx.
Technical data A.19 Technical data: LOGO! TD (Text Display) A.19 Technical data: LOGO! TD (Text Display) LOGO! TD Mechanical data Dimensions (WxHxD) 128.2 x 86 x 38.7 mm Weight Approx. 220 g Installation Bracket mounting Keyboard Membrane keypad with 10 keys Display FSTN-Graphic Display with 128 x 64 (columns x rows), LED backlight...
Technical data A.20 Technical data: Battery information for LOGO! battery cards A.20 Technical data: Battery information for LOGO! battery cards Battery information for LOGO! Battery cards Manufacturer Panasonic Type BR1220/1VCE Voltage Capacity 35mAh Mechanical data Dimensions 12.5mm x 1.6mm Weight 0.9g LOGO! Manual, 04/2011, A5E03556174-01...
Determining the cycle time The program cycle is the complete execution of the circuit program, that is, primarily the reading in of the inputs, the processing of the circuit program and the subsequent reading out of the outputs. The cycle time is the time required to execute a circuit program once in full.
Page 350
Determining the cycle time Explanation The inverted flag block changes its output signal at each program execution. Thus, one logic level (high or low) width is exactly equivalent to the length of one cycle. Hence, a period lasts 2 cycles. The threshold trigger indicates the ratio of periods per 2 seconds, which results in the ratio of cycles per second.
LOGO! without display ("LOGO! Pure") Because some specific applications do not require operator control and monitoring units such as buttons or a display, we provide the LOGO! 12/24RCo, LOGO! 24o, LOGO! 24Co, LOGO! 24RCo and LOGO! 230RCo versions without display. View of a LOGO! 230RCo, for example: Less is definitely more! The versions without display offer you the following benefits:...
Page 352
LOGO! without display ("LOGO! Pure") Operating characteristics LOGO! is ready for operation when power is switched on. Switching off a LOGO! without display is equivalent to disconnecting the power supply, e.g. as if you were removing the plug. The circuit program of LOGO!...o versions cannot be started or stopped by means of buttons.
LOGO! menu structure LOGO! Basic Menu overview 0BA6 0BA7 LOGO! Manual, 04/2011, A5E03556174-01...
Page 354
LOGO! menu structure D.1 LOGO! Basic Main menu (ESC / > Stop) 0BA6 0BA7 Programming menu (ESC / > Stop → > Program) LOGO! Manual, 04/2011, A5E03556174-01...
Page 355
LOGO! menu structure D.1 LOGO! Basic Transfer menu (ESC / > Stop → > Card) The card can be a LOGO! memory card or combined memory/battery card for a LOGO! 0BA6, or an SD card for a LOGO! 0BA7. Setup menu (ESC / > Stop → > Setup) LOGO! Manual, 04/2011, A5E03556174-01...
Page 356
LOGO! menu structure D.1 LOGO! Basic Start Menu (RUN) ① LOGO! 0BA7 start screen, if configured to display by default the parameter assignment menu ② Two menu commands available in LOGO! 0BA7 only LOGO! Manual, 04/2011, A5E03556174-01...
Page 358
LOGO! menu structure D.1 LOGO! Basic See also Parameters (Page 290) Assigning a circuit program name (Page 90) Selecting analog output values for RUN/STOP transition (Page 107) Defining the type of analog outputs (Page 109) Memory space and circuit program size (Page 130) Deleting the circuit program and password (Page 110) Password for circuit program protection (Page 91) Message texts (Page 231)
LOGO! menu structure D.2 LOGO! TD LOGO! TD Menu overview LOGO! TD (version ES6 or earlier) LOGO! TD (version ES7) Compared to previous versions of the LOGO! TD, an ES7 LOGO! TD provides three ① ② ③ additional main menu commands , and as shown below: LOGO!
Page 360
LOGO! menu structure D.2 LOGO! TD Main menu (ESC / > Stop) LOGO! TD (version ES6 or earlier) LOGO! TD (version ES7) Setup menu (ESC / > Stop → >Setup) LOGO! Manual, 04/2011, A5E03556174-01...
Page 361
LOGO! menu structure D.2 LOGO! TD Start menu (LOGO! Basic in RUN) ① ES7 LOGO! TD start screen, if configured from LOGO! 0BA7 to display by default the parameter assignment menu ② Two menu commands available in the ES7 version of the LOGO! TD only LOGO! Manual, 04/2011, A5E03556174-01...
Page 362
LOGO! menu structure D.2 LOGO! TD Network menu in LOGO! TD (version ES7), for LOGO! 0BA7 only Diagnostic menu in LOGO! TD (version ES7), for LOGO! 0BA7 only See also Parameters (Page 290) Setting the default values for LOGO! (Page 294) Message texts (Page 231) Setting the time of day and date (LOGO! ...
Abbreviations Analog module Block number B1 Block Number LOGO! device designation: integrated clock Communication Module Count = Counter input Connector Direction (of count, for example) Digital Module LOGO! device designation: integrated Ethernet interface European Installation Bus EIB Interoperability Standard Enable = switching on (e.g., clock generators) EIB Tool Software Input for frequency signals to be analyzed Basic Functions...
Index Card See Program module (card), 303 CE label, 27 Amplifier Ch by Ch ticking, 237 analog, 226 Character set flag, 140 Analog Character sets, 231 comparator, 218 Chinese character set, 232 values, 154 circuit program, 130 Analog amplifier, 226 Circuit programs Analog differential trigger, 216 archiving, 303...
Page 368
Index DIN rail, 39 inverting, 142, 156 Display lifetime Instructions LOGO! TD, 347 Basic functions (GF), 137 Display modules, 14 Connectors (Co), 137 Divide by 0 error, 268 GF, 142 DM8... See Digital module, 14 SF, 156 Special Functions (SF), 137 Interlock, 42 Internet address, 7 Inverter, 149...
Page 369
Index Modems, 6 Programming menu Multiple function switch, 182 AQ in Stop, 107 AQ type, 109 Clear Prg, 110 Edit Name, 90 Edit Prg, 84 NAND, 145 Pulse Negation, 149 Pause, 173 of an input, 142 width, 173 of an SF input, 156 Pulse generator Network analog inputs, 141 Asynchronous, 175...
Page 370
Index Analog threshold trigger, 213 Analog watchdog, 223 Text Display (TD), 15 Astronomical clock, 195 Threshold trigger, 210 Asynchronous pulse generator, 175 Ticker, 236 Average value, 276 Time response, 151 Basics, 150 Timebase, 151, 161 Edge-triggered wiping relay, 172 Timer Hours counter, 205 accuracy, 152 Latching relay, 228...
Page 371
Index XE \* MERGEFORMAT, 107 XOR, 149 Yearly timer, 190 Zero division error, 268 Zero offset, 154 LOGO! Manual, 04/2011, A5E03556174-01...
Page 372
Index LOGO! Manual, 04/2011, A5E03556174-01...
Page 373
___________________ Basic Panels Preface ___________________ Overview ___________________ Safety instructions SIMATIC HMI ___________________ Mounting and connecting HMI devices ___________________ Basic Panels Operating the device ___________________ Configuring the HMI device Operating Instructions ___________________ Commissioning a project ___________________ Maintenance and care ___________________ Technical specifications ___________________ Technical Support ___________________...
Page 374
Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Page 375
Preface Purpose of the operating instructions These operating instructions provide information based on the requirements defined by IEC 62079 for documentation. This information relates to the HMI device, its storage, transportation, place of use, installation, use and maintenance. These operating instructions are intended for a variety of target groups. The following table shows the chapters of these operating instructions that are of particular importance for the respective target group.
Page 376
Preface Scope These operating instructions are valid for all SIMATIC HMI Basic Panels. The following naming conventions apply: Device designation Device type Interface type Can be configured with SIMATIC HMI KP300 Basic mono PN Keyboard unit Basic Panel PN WinCC (TIA Portal) as of V11 KP400 Basic color PN WinCC (TIA Portal) as of V11 SP2 Update 2 with HSP Basic 4"...
Page 377
Preface Illustrations and text highlighting This manual contains illustrations of the described devices. The illustrations may deviate from the supplied device in certain details. The following graphical highlighting facilitates reading these operating instructions: Graphical highlighting Description If the instructions involve several tasks, the individual tasks are highlighted by a red number circle.
Page 378
Trademarks Names labeled with a ® symbol are registered trademarks of the Siemens AG. Other names used in this documentation may be trademarks, the use of which by third parties for their own purposes could violate the rights of the owner.
Page 379
Table of contents Preface ..............................3 Overview..............................11 Product Overview.........................11 Design of the KP300 Basic mono PN ..................12 Design of the KP400 Basic color PN ...................13 Design of the KTP400 Basic mono PN..................15 Design of the KTP400 Basic color PN ..................16 Design of the KTP600 Basic mono/color PN ................17 Design of the KTP600 Basic color DP ..................18 Design of the KTP1000 Basic color PN ..................19...
Page 380
Table of contents Switching on and testing the HMI device ..................48 Securing the cables........................50 Operating the device..........................51 Operating touch devices ......................51 4.1.1 Overview ............................. 51 4.1.2 General functions of the screen keyboard .................. 53 4.1.3 Entering data on the KTP400 Basic.................... 54 4.1.4 Entering data on the KTP600 Basic, KTP1000 Basic , TP1500 Basic ........
Page 381
Table of contents Transfer............................91 6.4.1 Overview ............................91 6.4.2 Starting manual transfer.......................91 6.4.3 Starting automatic transfer......................93 6.4.4 Testing a project ..........................95 Backup and restore........................96 6.5.1 Overview ............................96 6.5.2 Backup and restore using WinCC flexible ...................97 6.5.3 Backup and restore using ProSave .....................99 6.5.4 Backup and restore using WinCC....................100 OS update - Basic Panel DP......................101...
Page 382
Table of contents Specifications ..........................131 8.4.1 Power supply..........................131 8.4.2 KP300 Basic and KP400 Basic....................131 8.4.3 KTP400 Basic and KTP600 Basic .................... 133 8.4.4 KTP1000 Basic and TP1500 Basic................... 135 8.4.5 Ambient conditions........................137 8.4.5.1 Transport and storage conditions ..................... 137 8.4.5.2 Conditions of use ........................
Overview Product Overview Concentrating on the essentials - the new Basic Panels Today, visualization is part of the standard repertoire for most machines. The cost factor plays a crucial role in this case, especially for small machines and simple applications. HMI devices with basic functions are often fully sufficient for simple applications.
Overview 1.2 Design of the KP300 Basic mono PN Design of the KP300 Basic mono PN ① ⑥ Power supply connector Function keys ② ⑦ PROFINET interface Rating plate ③ ⑧ Display Mounting seal ④ ⑨ Control keys Interface name ⑤...
Overview 1.3 Design of the KP400 Basic color PN Design of the KP400 Basic color PN ① ⑤ Cutouts for mounting clamps Function keys ② ⑥ Power supply connector Control keys ③ ⑦ PROFINET interface Data input keys ④ Display Basic Panels Operating Instructions, 04/2012, A5E02421799-03...
Page 386
Overview 1.3 Design of the KP400 Basic color PN ① ④ Rating plate Functional earth connection ② ⑤ Mounting seal Guides for labeling strips ③ Interface name Basic Panels Operating Instructions, 04/2012, A5E02421799-03...
Overview 1.4 Design of the KTP400 Basic mono PN Design of the KTP400 Basic mono PN ① ⑥ Power supply connector Mounting seal ② ⑦ Functional earth connection Guide for a labeling strip ③ ⑧ PROFINET interface Function keys ④ ⑨...
Overview 1.5 Design of the KTP400 Basic color PN Design of the KTP400 Basic color PN ① ⑥ Cutouts for mounting clamps Guide for a labeling strip ② ⑦ Power supply connector Rating plate ③ ⑧ PROFINET interface Mounting seal ④...
Overview 1.6 Design of the KTP600 Basic mono/color PN Design of the KTP600 Basic mono/color PN ① ⑥ Power supply connector Function keys ② ⑦ PROFINET interface Rating plate ③ ⑧ Cutouts for a mounting clamp Interface name ④ ⑨ Display/touch screen Guide for a labeling strip ⑤...
Overview 1.7 Design of the KTP600 Basic color DP Design of the KTP600 Basic color DP ① ⑦ Power supply connector Rating plate ② ⑧ RS-422/RS-485 interface Interface name ③ ⑨ Cutouts for a mounting clamp DIP switch ④ ⑩ Display/touch screen Guide for a labeling strip ⑤...
Overview 1.8 Design of the KTP1000 Basic color PN Design of the KTP1000 Basic color PN ① ⑦ Power supply connector Rating plate ② ⑧ PROFINET interface Interface name ③ ⑨ Cutouts for a mounting clamp Fixing element ④ ⑩ Display/touch screen Functional earth connection ⑤...
Overview 1.9 Design of the KTP1000 Basic color DP Design of the KTP1000 Basic color DP ① ⑦ Power supply connector Rating plate ② ⑧ RS-422/RS-485 interface DIP switch ③ ⑨ Cutouts for a mounting clamp Interface name ④ ⑩ Display/touch screen Fixing element ⑤...
Overview 1.10 Design of the TP1500 Basic color PN 1.10 Design of the TP1500 Basic color PN ① ⑥ Power supply connector Rating plate ② ⑦ PROFINET interface Interface name ③ ⑧ Cutouts for a mounting clamp Fixing element ④ ⑨...
Overview 1.11 Product package 1.11 Product package The following components are included in the product package of the HMI device. Name Figure Quantity HMI device Quick Installation Guide Mounting seal Included with KTP 600 Basic and already installed with all other HMI devices.
Accessories Accessories are not included in the product package of the HMI device, but can ordered on the Internet under Industry Mall (http://mall.automation.siemens.com). This section contains the number of accessories available at the time of publication of the operating instructions.
Safety instructions General safety instructions Working on the control cabinet WARNING Open equipment The HMI device is open equipment. That means that the HMI device may only be installed in cubicles or cabinets that provide front panel access for operating the device. The cubicle or cabinet in which the HMI device is installed may only be accessed with a key or tool and only by trained, authorized personnel.
2.2 Security information Security information Siemens offers IT security mechanisms for its portfolio of automation and drive products in order to support safe operation of the plant/machine. We recommend that you stay informed about the IT security developments for your products. For information on this topic, refer to: Industry Online Support (http://www.siemens.de/automation/csi_en_WW): You can register...
Page 399
Safety instructions 2.3 Notes about usage Notes on communication NOTICE Communication errors caused by address conflict Communication errors can occur if several devices in a network share the same bus address or IP address. Make sure that your HMI device is assigned a unique address in the network. Note Updating tag values following a communication error If communication between an HMI device and PLC is interrupted, all tag values displayed on...
Damaged parts Do not install parts damaged during shipment. In the case of damaged parts, contact your Siemens representative. The package content is described in section Product package (Page 22). Keep the supplied documentation in a safe place. The documentation belongs to the HMI device and is required for subsequent commissioning.
Page 402
Mounting and connecting 3.1 Preparations Horizontal mounting position All Basic HMI devices are suitable for horizontal mounting positions. The maximum ambient temperature at the device with vertical mounting in horizontal positions is 50 °C The following Basic HMI devices are also suitable for vertical mounting positions: KTP400 Basic...
Mounting and connecting 3.1 Preparations 3.1.4 Checking clearances The following clearances are required around the HMI device to ensure sufficient self- ventilation: Required clearance around the HMI devices. All Basic KTP400 Basic All dimensions in mm Panels KTP600 Basic 3.1.5 Making the mounting cut-out NOTICE Stability of the mounting cutout...
Page 404
Mounting and connecting 3.1 Preparations Mounting compatibility The mounting cutouts of the Basic panels are compatible with the mounting cutouts of the following SIMATIC HMI devices: Mounting cutout for the Basic Compatible to the mounting cutouts of the HMI device Panel KP400 Basic OP77A, OP77B...
"CD_3\Documents\ <language>\Slides" directory on the WinCC/WinCC flexible DVD or on the Internet at: Downloads for Basic Panels (http://support.automation.siemens.c om/WW/view/en/28426379/133100) 2. Print the edited template on foil. 3. Apply a fixing spray film to the labeling strips. 4. Wait approx. 5 minutes until the fixing spray is dry and smear-proof.
Mounting and connecting 3.2 Mounting the HMI device Mounting the HMI device Required tools and accessories Slotted screwdriver, size 2 Mounting clamp type For HMI device Required quantity Aluminum mounting clamps KTP400 Basic mono KTP600 Basic KTP1000 Basic TP1500 Basic: Plastic mounting clamps KP300 Basic KP400 Basic...
Page 407
Mounting and connecting 3.2 Mounting the HMI device Securing the HMI device with aluminum mounting clamps 1. Insert the first clamp at the first position of the cutouts on the back of the HMI device. Set the clamp positions for your HMI device to match those of the figures in the following table row.
Mounting and connecting 3.3 Connecting the HMI device Securing the HMI device with plastic mounting clamps 1. If mounting clamps and grub screws are available separately in the accessories bag, insert a grub screw into the mounting clamp bore hole and turn it several times.
Page 409
Mounting and connecting 3.3 Connecting the HMI device Torx screwdriver, size TX20 Crimp pliers Power supply terminal 24 VDC with sufficient amperage. See Specifications (Page 131) Procedure Keep to the following sequence of tasks when connecting the HMI device: 1. Connecting the equipotential bonding circuit (Page 38) 2.
Mounting and connecting 3.3 Connecting the HMI device 3.3.2 Connecting the equipotential bonding circuit Differences in electrical potential Differences in electrical potential can develop between spatially separated plant components. Such electrical potential differences can lead to high equalizing currents over the data cables and therefore to the destruction of their interfaces.
Mounting and connecting 3.3 Connecting the HMI device Procedure 1. Interconnect functional ground of the HMI device with an grounding cable, cross-section 4 mm 2. Connect the grounding cable of the HMI device to the equipotential bonding rail. 3.3.3 Connecting the power supply Stripping the cable Use power supply cables with a maximum cross-section of 1.5 mm...
Page 412
Mounting and connecting 3.3 Connecting the HMI device Procedure CAUTION 24 VDC only An incorrectly dimensioned power supply can lead to destruction of the HMI device. Use a 24 VDC power supply with adequate amperage; see Specifications (Page 131). 1. Insert the two power cables into the mains terminal and secure them with a slotted screwdriver.
Mounting and connecting 3.3 Connecting the HMI device 3.3.4 Connecting a programming device A programming device provides the following options: ● Transferring projects. ● Transferring device images. Connecting a programming device to a Basic Panel DP Note A programming device cannot be used to reset the HMI device to factory settings. 1.
Mounting and connecting 3.3 Connecting the HMI device 3.3.5 Connecting the configuration PC A configuring PC provides the following options: ● Transferring projects. ● Transferring device images. ● Resetting HMI device to factory settings. Connecting a configuring PC to a Basic Panel DP 1.
Page 415
Mounting and connecting 3.3 Connecting the HMI device Configuring the PC/PPI cable Configure the transmission speed using the DIP switches of the PC/PPI cable if using the PC/PPI cable to interconnect the HMI device with the configuring PC. Note Set a lower bit rate if the connection is lost during the operating system update. If you use a higher bit rate, you must use the PC/PPI cable release 3 or higher.
Page 416
Mounting and connecting 3.3 Connecting the HMI device Connecting a configuring PC to a Basic Panel PN CAUTION Data network security for communication via Ethernet With Ethernet-based communication via PROFINET, the end user is himself responsible for the security of his data network; the proper functioning of the data network cannot be guaranteed in all circumstances, for example in the case of target attacks leading to an overloading of the device.
Mounting and connecting 3.3 Connecting the HMI device 3.3.6 Connecting the PLC If the HMI device contains an operating system and an executable project, connect the HMI device to the PLC. Note Note the following when connecting the PLC to a panel: •...
Page 418
Mounting and connecting 3.3 Connecting the HMI device Configuring an RS422/RS485 port A DIP switch for the configuration of the RS422/RS485 interface is located on the back of the HMI device. The DIP switch is set at the factory to enable communication with the SIMATIC PLC via RS 485.
Page 419
Mounting and connecting 3.3 Connecting the HMI device Connecting the PLC to a Basic Panel PN CAUTION Data network security for communication via Ethernet With Ethernet-based communication via PROFINET, the end user is himself responsible for the security of his data network; the proper functioning of the data network cannot be guaranteed in all circumstances, for example in the case of target attacks leading to an overloading of the device.
Mounting and connecting 3.4 Switching on and testing the HMI device Switching on and testing the HMI device Switching on the HMI device. Switching on the power supply. The screen lights up after power is switched on. A progress bar is displayed during startup. If the HMI device fails to start, you have probably crossed the wires on the power supply terminal.
Page 421
Mounting and connecting 3.4 Switching on and testing the HMI device The Loader opens after the operating system has started. ● Touch devices: You operate the loader via the buttons on the touch screen ● Key devices: You use the cursor keys to operate the loader menu. You use the <ENTER>...
Mounting and connecting 3.5 Securing the cables Securing the cables The following HMI devices come equipped with a fixing element on the back for strain relief: ● KTP1000 Basic DP ● KTP1000 Basic PN ● TP1500 Basic After the power-on test, use a cable tie to secure the connected cables to the marked fixing element in order to provide strain relief.
Operating the device Operating touch devices 4.1.1 Overview Most Basic HMI devices feature a touch screen. Certain Basic HMI devices feature function keys. Use the touch screen and function keys to operate the Control Panel or the project running on your HMI device. DANGER Incorrect operation A project can contain certain operations that require in-depth knowledge about the specific...
Page 424
Operating the device 4.1 Operating touch devices They are basically operated in the same way as mechanical keys. You activate operating elements by touching them with your finger. Note The HMI device returns a visual feedback as soon as it detects that an operating element has been touched.
Operating the device 4.1 Operating touch devices Operating function keys The function keys can be assigned global or local functions: ● Function keys with global function assignment A function key with global function assignment always triggers the same action on the HMI device or in the PLC, regardless of the currently displayed screen.
Operating the device 4.1 Operating touch devices 4.1.3 Entering data on the KTP400 Basic Due to the small display, the screen keyboard and the input concept of the KTP400 Basic differs compared to other Basic HMI devices. The screen keyboard appears on the HMI device touch screen when you touch an operating element that requires input.
Page 427
Operating the device 4.1 Operating touch devices Note Job mailbox has no effect PLC job 51 "Select screen" has no effect while the screen keyboard is open. Key assignment The alphanumerical screen keyboard layout is monolingual. A language change within the project has no effect on the layout of the alphanumerical screen keyboard.
Page 428
Operating the device 4.1 Operating touch devices Entering numerical values 1. Touch the desired operating element on the screen. The numerical screen keyboard opens. 2. Enter the value. Depending on the settings, the HMI device outputs an audible signal. You can change the view of the screen keyboard for entering numbers with hexadecimal notation using the <N-Z>...
Operating the device 4.1 Operating touch devices 4.1.4 Entering data on the KTP600 Basic, KTP1000 Basic , TP1500 Basic Alphanumerical screen keyboard The screen keyboard appears on the HMI device touch screen when you touch an operating element that requires input. Note Job mailbox has no effect PLC job 51 "Select screen"...
Page 430
Operating the device 4.1 Operating touch devices Entering numerical values 1. Touch the desired operating element on the screen. The numerical screen keyboard opens. 2. Enter the value. Depending on the settings, the HMI device outputs an audible signal. 3. Press <Return> key to confirm your entries, or cancel them with <ESC>.
Operating the device 4.2 Operating KP300 Basic Operating KP300 Basic 4.2.1 Overview The KP300 Basic comes equipped with system keys. The system keys are as follows: ● Control keys ● Function keys with integrated alphanumeric keys Control keys The following table shows the function and effect of the control keys of the HMI device: Function Effect Moving the cursor...
Operating the device 4.2 Operating KP300 Basic Operating function keys The function keys can be assigned global or local functions: ● Function keys with global function assignment A function key with global function assignment always triggers the same action on the HMI device or in the PLC, regardless of the currently displayed screen.
Page 433
Operating the device 4.2 Operating KP300 Basic The following figure shows the assignment using the "F5" function key as an example. ① Number assignment; automatically active when you enter numerical values ② Function key assignment; active by default If you change to editing mode in the Control Panel or project with <ENTER>, the function assignment is disabled.
Page 434
Operating the device 4.2 Operating KP300 Basic Operating a project Proceed as follows: 1. To navigate between operating elements: – Press <TAB> to navigate within a configured TAB order. – Use the cursor keys to navigate freely between operating elements. The operating element is selected.
Operating the device 4.3 Operating KP400 Basic Decimal places of numerical values The configuration engineer can define the number of decimal places for a numerical text box. The number of decimal places is checked when you enter a value in this type of I/O field. ●...
Page 436
Operating the device 4.3 Operating KP400 Basic The following table shows the functions that are available both in the Control Panel and in the project: Key or key Function combination Switches between upper and lower case Deletes the character left of cursor. Moves to the next operating element in the TAB order.
Page 437
Operating the device 4.3 Operating KP400 Basic Operating the Control Panel and dialogs The following table shows additional key functions when operating the Control Panel and the associated dialogs. Key or key Function combination On tab level: Switches between tabs Within a text box: Positions the cursor Activates tab level, text boxes, buttons or options from top to bottom or from left to right...
Operating the device 4.3 Operating KP400 Basic 4.3.2 Entering data on the KP400 Basic Data input on an HMI device is similar to operating the keys on a cell phone. Each key has several functions. When you press a data input key for long enough, the number is automatically inserted.
Configuring the HMI device Configuring devices with graphical Control Panel 5.1.1 Opening the Control Panel With the exception of the KP300 Basic mono PN, all Basic Panels have a graphic Control Panel. Open the Control Panel by pressing the "Control Panel" button of the Loader.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel Protecting the Control Panel with a password You can protect the Control Panel against unauthorized operation. You can read the settings in the Control Panel without having entered a password, however, you are not allowed to edit the settings.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.3 Changing MPI/DP settings Note The settings for MPI or PROFIBUS DP communication are defined in the HMI device project. Edit the transfer settings only in the following situations: •...
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.4 Changing the network configuration NOTICE Communication errors caused by IP address conflicts Communication errors can occur if several devices in a network share the same IP address. Assign each HMI device an IP address that is unique within the network. 1.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.5 Time server configuration The HMI device has an unbuffered realtime clock. The realtime clock is set either using the configuration or using a time server. To fetch the time-of-day of the HMI device from a time server, specify up to four different time servers.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.6 Changing monitor settings NOTICE Orientation of the screen for KTP400 Basic and KTP600 Basic The screen orientation is defined by the configuration engineer in the course of project creation.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.7 Displaying information about the HMI device 1. Press "OP" to open the "OP Properties" dialog. 2. Open the "Device" tab. The "Device" tab is used to display specific information on the HMI device.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.8 Calibrating the touch screen This function is only available for touch screen devices. 1. Press "OP" to open the "OP Properties" dialog. 2. Change to the "Touch" tab. 3.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.9 Displaying licensing information for the HMI device 1. Press "OP" to open the "OP Properties" dialog. 2. Open the "License" tab. The "License" tab is used to display the licensing information for the software of the HMI device.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.10 Enabling a data channel You must enable at least one data channel to transfer a project to the HMI device. Note After having completed the project transfer, you can protect the HMI device against unintentional overwriting of project data and of the HMI device image by locking all data channels.
Page 449
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel Enabling a data channel - Basic Panels PN 1. Press "Transfer" to open the "Transfer Settings" dialog. 2. Select the "Enable Channel" check box in the "Channel 1" field. Press the "Advanced"...
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.11 Changing password settings Password protection prevents unauthorized access to the Control Panel. NOTICE The password cannot contain spaces or special characters * ? . % / \ ' ". If the password is no longer available for the Control Panel, you first have to update the operating system before you can make any changes in the Control Panel.
Configuring the HMI device 5.1 Configuring devices with graphical Control Panel 5.1.12 Setting the Screen Saver NOTICE Burn-in effect The screen contents may leave a faint version (ghost) of the image in the background if they appear for too long. The "ghost"...
Configuring the HMI device 5.2 Configuring KP300 Basic Configuring KP300 Basic 5.2.1 Opening the Control Panel Use the "Info/Settings" menu command to open the Control Panel in the Loader. Configure your HMI device in the Control Panel. You can make the following settings: ●...
Configuring the HMI device 5.2 Configuring KP300 Basic 5.2.2 Overview The following table shows the menu structure of the Control Panel with the functions that are available there for configuring your HMI device. Menu entry Function / Note Start Transfer Info/Settings Contrast Changing monitor settings (Page 83)
Page 454
Configuring the HMI device 5.2 Configuring KP300 Basic Network Mode Changing the network configuration (Page 85) LLDP Protocol Enable Disable Auto Negotiation Enable Disable Speed Only available if "Auto Negotiation = Enable" 10 Mbits/s 100 Mbits/s Communication Link Only available if "Auto Negotiation = Enable" Half-Duplex Full-Duplex Time server configuration (Page 86)
Configuring the HMI device 5.2 Configuring KP300 Basic 5.2.3 Displaying information about the HMI device Menu commands in the "Info/Settings" menu The following table shows the menu commands in the "Info/Settings" menu: Menu item Information contained there Device Info HMI device name Size of the internal flash memory in which the HMI device image and project are stored The size of internal flash memory is not equivalent to application memory available for a project.
Configuring the HMI device 5.2 Configuring KP300 Basic 5.2.5 Enabling a data channel You must enable at least one data channel to transfer a project to the HMI device. Note After having completed the project transfer, you can protect the HMI device against unintentional overwriting of project data and of the HMI device image by locking all data channels.
Configuring the HMI device 5.2 Configuring KP300 Basic 5.2.6 Changing the network configuration NOTICE Communication errors caused by IP address conflicts Communication errors can occur if several devices in a network share the same IP address. Assign each HMI device an IP address that is unique within the network. Procedure Proceed as follows: 1.
Configuring the HMI device 5.2 Configuring KP300 Basic 8. If you assign the connection type and transmission rate manually, select the desired values under "Speed" and "Communication Link". – Select "100 Mbps" or "10 Mbps". – Select "Half-Duplex" or "Full-Duplex". 5.2.7 Time server configuration Introduction...
Configuring the HMI device 5.2 Configuring KP300 Basic 5.2.8 Changing password settings Password protection prevents unauthorized access to the "Info/Settings > Logon/Settings" menu. NOTICE The password cannot contain spaces or special characters * ? . % / \ ' ". If the password for the "Info/Settings >...
Configuring the HMI device 5.2 Configuring KP300 Basic 5.2.9 Setting the Screen Saver NOTICE Burn-in effect The screen contents may leave a faint version (ghost) of the image in the background if they appear for too long. The "ghost" will disappear automatically after some time. The longer the same content is displayed on the screen, the longer it will take for the burn-in effect to disappear.
Commissioning a project Overview Configuration phase A project – the process image of the working process – is created during configuration to visualize automated working processes. The process displays for the project contain displays for values and messages which provide information about process statuses. The process control phase follows the configuration phase.
Commissioning a project 6.2 Operating modes Operating modes Operating modes The HMI device may be in the following operating modes: ● Offline ● Online ● Transfer "Offline mode" and "Online mode" can be set on both the configuring PC and the HMI device.
Commissioning a project 6.3 Data transmission options Data transmission options Overview The following table shows the options for data transfer between the HMI device and configuration PC. Type Data channel Basic Panels DP Basic Panels PN Backup/restore, Serial Operating system update MPI/PROFIBUS DP Project transfers PROFINET...
Page 464
Commissioning a project 6.4 Transfer Procedure (WinCC flexible) Proceed as follows: 1. On the configuring PC, select the "Transfer settings" command from the "Project > Transfer" menu in WinCC flexible. The "Select devices for transfer" dialog opens. 2. Select the HMI device in the left area of the dialog. 3.
Commissioning a project 6.4 Transfer 6.4.3 Starting automatic transfer Introduction If automatic transfer is activated, the HMI device automatically changes to "Transfer" mode at runtime as soon as a transfer is started on the connected configuring PC. Note With automatic transfer, the HMI device only changes into "Transfer" mode when the project is running on the HMI device.
Page 466
Commissioning a project 6.4 Transfer Procedure (WinCC flexible) Proceed as follows: 1. On the configuring PC, select the "Transfer settings" command from the "Project > Transfer" menu in WinCC flexible. The "Select devices for transfer" dialog opens. 2. Select the HMI device in the left area of the dialog. 3.
Commissioning a project 6.4 Transfer 6.4.4 Testing a project Introduction You have the following options to test a project: ● Test the project on the configuring PC You can test a project at a configuring PC, using a simulator. For detailed information, refer to the "WinCC flexible"...
Commissioning a project 6.5 Backup and restore Requirements for online testing ● The project has been transferred to the HMI device. ● The HMI device is in "Online" mode. Procedure In "Online" mode, you can test individual project functions on the HMI device without them being affected by the PLC.
Commissioning a project 6.5 Backup and restore See also Data transmission options (Page 91) 6.5.2 Backup and restore using WinCC flexible Requirement ● No project is open on the configuration PC in WinCC flexible. ● The HMI device is connected to this configuration PC. ●...
Page 470
Commissioning a project 6.5 Backup and restore Procedure – restoring Proceed as follows: 1. On the configuration PC, select the "Communication settings" command in the menu "Project > Transfer" in WinCC flexible. The "Communication settings" dialog box opens. 2. Select the type of HMI device. 3.
Commissioning a project 6.5 Backup and restore 6.5.3 Backup and restore using ProSave Requirements ● The HMI device is connected to a PC on which ProSave is installed. ● The data channel is parameterized on the HMI device. Procedure – backup Proceed as follows: 1.
Commissioning a project 6.5 Backup and restore Procedure – restore Proceed as follows: 1. Go to the Windows Start menu and start ProSave on the PC. 2. Select the HMI device type in the "General" tab. 3. Select the type of interconnection for the HMI device and the PC. 4.
Commissioning a project 6.6 OS update - Basic Panel DP Restoring the data of the HMI device Proceed as follows: 1. Select the "Restore" command from the "Online > HMI device maintenance" menu. 2. Enter the name of the backup file under "Save as". Information about the selected backup file is displayed under "Content".
Commissioning a project 6.6 OS update - Basic Panel DP 6.6.2 Resetting factory settings In ProSave, WinCC flexible or WinCC, you can update the operating system with or without resetting to factory settings. ● Updating the operating system without reset to factory settings First, switch into "Transfer"...
Page 475
Commissioning a project 6.6 OS update - Basic Panel DP Requirements ● The HMI device is connected to a configuring PC. ● No project is open in WinCC flexible. ● When updating the operating system without reset to factory setting only: The data channel is configured on the HMI device.
Commissioning a project 6.6 OS update - Basic Panel DP 6.6.4 Updating the Operating System using ProSave Requirements ● The HMI device is connected to a PC on which ProSave is installed. ● When updating the operating system without reset to factory settings only: The data channel is configured on the HMI device.
Commissioning a project 6.7 OS update - Basic Panel PN OS update - Basic Panel PN 6.7.1 Overview Updating the operating system A compatibility conflict may occur when transferring a project to the HMI device. This is caused by different versions of the configuration software used and the HMI device image available on the HMI device.
Commissioning a project 6.7 OS update - Basic Panel PN 6.7.2 Resetting factory settings In ProSave, WinCC flexible or WinCC, you can update the operating system with or without resetting to factory settings. ● Updating the operating system without reset to factory settings First, switch into "Transfer"...
Page 479
Commissioning a project 6.7 OS update - Basic Panel PN Requirements ● No project is open on the configuring PC in WinCC flexible. ● The HMI device is connected to this configuring PC. ● The data channel is configured on the HMI device. Procedure Proceed as follows: 1.
Commissioning a project 6.7 OS update - Basic Panel PN 6.7.4 Updating the operating system using ProSave Requirements ● The HMI device is connected to a PC on which ProSave is installed. ● The data channel is configured on the HMI device. Procedure Proceed as follows: 1.
Commissioning a project 6.7 OS update - Basic Panel PN 6.7.5 Updating the operating system using WinCC If possible, you should use the interface with the highest bandwidth for this connection, such as Ethernet. Updating the operating system via a serial connection can take up to an hour. CAUTION Updating the operating system deletes all data on the HMI device When you update the operating system you delete data on the target system.
Commissioning a project 6.7 OS update - Basic Panel PN 6.7.6 Resetting to factory settings with WinCC flexible CAUTION Updating the operating system deletes all data on the HMI device When you update the operating system you delete data on the target system. For this reason, it is advisable to backup the following data: •...
Page 483
Commissioning a project 6.7 OS update - Basic Panel PN Note Possible address conflicts with incorrect IP address Do not use a dynamic IP configuration for "Reset to factory settings". Specify a unique IP address in which the configuring PC is located. For the duration of the update process, the HMI device is automatically assigned to the specified address.
Commissioning a project 6.7 OS update - Basic Panel PN 6.7.7 Resetting to factory settings with ProSave Requirement ● The HMI device is connected over the Ethernet to a PC on which ProSave is installed. ● Have the MAC address of your HMI device's Ethernet interface to hand. –...
Page 485
Commissioning a project 6.7 OS update - Basic Panel PN 4. Change to the "OS Update" tab. 5. Select the "Reset to factory settings" check box. A text box opens where you can enter the MAC address. 6. Enter the HMI device's MAC address in the text box. 7.
Commissioning a project 6.7 OS update - Basic Panel PN 6.7.8 Resetting to factory settings with WinCC If possible, you should use the interface with the highest bandwidth for this connection, such as Ethernet. Updating the operating system via a serial connection can take up to an hour. CAUTION Updating the operating system deletes all data on the HMI device When you update the operating system you delete data on the target system.
Maintenance and care Maintenance and care Introduction The HMI device is designed for maintenance-free operation. Make sure you keep the touch screen and keyboard membrane clean. Requirements Use a cleaning cloth dampened with a cleaning agent to clean the equipment. Only use water with a little liquid soap or a screen cleaning foam.
Maintenance and care 7.2 Recycling Recycling Recycling and disposal The HMI devices described in these operating instructions can be recycled due to the low levels of pollutants. Contact a certified disposal service company for environmentally sound recycling and disposal of your old devices. Basic Panels Operating Instructions, 04/2012, A5E02421799-03...
● 2004/108/EC "Electromagnetic Compatibility" (EMC Directive) EC Declaration of Conformity The EC Declarations of Conformity are available to the relevant authorities at the following address: Siemens AG Industry Sector I IA AS FA WF AMB PO Box 1963 D-92209 Amberg, Germany Marking for Australia The HMI device fulfills the requirements of standard AS/NZS 2064 (Class A).
Technical specifications 8.2 Directives and declarations Directives and declarations 8.2.1 Electromagnetic compatibility Introduction The HMI device fulfills, among other things, the requirements of the EMC law pertaining to the domestic European market. EMC-compatible installation of the HMI device The EMC-compliant installation of the HMI device and the application of interference-proof cable is the basis for interference-free operation.
Technical specifications 8.2 Directives and declarations Sinusoidal interference The following table shows the EMC behavior of the modules with respect to sinusoidal interference. This requires the HMI device to meet the specifications and directives for electrical installation. Sinusoidal interference Test values Degree of severity HF radiation (in...
Page 492
Technical specifications 8.2 Directives and declarations Electrostatic sensitive devices can be labeled with an appropriate symbol. CAUTION Damage to ESD from touch Electrostatic sensitive devices, ESD, can be destroyed by voltages which are far below the human perception limit. If you touch a component or electrical connections of a module without discharging any electrostatic energy, these voltages may arise.
Page 493
Technical specifications 8.2 Directives and declarations CAUTION Grounding measures There is no equipotential bonding without grounding. An electrostatic charge is not discharged and may damage the ESD. Protect yourself against discharge of static electricity. When working with electrostatic sensitive devices, make sure that the person and the workplace are properly grounded. Protective measures against discharge of static electricity ●...
Technical specifications 8.4 Specifications Specifications 8.4.1 Power supply CAUTION Safe electrical isolation Use only 24 VDC power supply units with safe electrical isolation in accordance with IEC 60364-4-41 or HD 384.04.41 (VDE 0100, Part 410), e.g. to PELV standard. The supply voltage must be within the specified voltage range. Otherwise, malfunction at the HMI device cannot be ruled out.
Page 504
Technical specifications 8.4 Specifications KP300 Basic mono PN KP400 Basic color PN Backlighting Half Brightness Life Time (MTBF 50,000 h Pixel error class according to DIN EN ISO 13406-2 MTBF: Operating hours after which the maximum brightness is reduced by half compared to the original value. MTBF is increased by using the integrated dimming function, for example, time-controlled via screen saver or centrally via PROFIenergy.
Technical specifications 8.4 Specifications 8.4.4 KTP1000 Basic and TP1500 Basic HMI device KTP1000 Basic color DP KTP1000 Basic color PN TP1500 Basic color PN Weight without packaging Approx. 2.65 kg Approx. 4.2 kg Display KTP1000 Basic color DP KTP1000 Basic color PN TP1500 Basic color PN Type LCD TFT...
Page 508
Technical specifications 8.4 Specifications Supply voltage KTP1000 Basic color DP KTP1000 Basic color PN TP1500 Basic color PN Rated voltage +24 V DC Range, permissible 19.2 to 28.8 V (–20%, +20%) Transients, maximum permissible 35 V (500 ms) Time between two transients, 50 s minimum Current consumption...
Technical specifications 8.4 Specifications 8.4.5 Ambient conditions 8.4.5.1 Transport and storage conditions Mechanical and climatic conditions for transportation and storage The transport and storage conditions of this HMI device exceed requirements in accordance with IEC 61131-2. The following specifications apply to the transport and storage of an HMI device in its original packaging.
Technical specifications 8.4 Specifications 8.4.5.2 Conditions of use Mechanical and climatic conditions of use The HMI device is designed for use in a location protected from the effects of the weather. The conditions of use are compliant with requirements to DIN IEC 60721-3-3: ●...
Page 511
Technical specifications 8.4 Specifications Testing mechanical ambient conditions The following table provides information on the type and scope of tests for mechanical ambient conditions. Tested for Test standard Comments Vibrations Vibration test in accordance Type of vibration: with IEC 60068, part 2–6 Transitional rate of the frequency: (sinusoidal) 1 octave/minute.
Technical specifications 8.4 Specifications 8.4.5.3 Information on insulation tests, protection class and degree of protection Test voltages Insulation strength is demonstrated in the type test with the following test voltages in accordance with IEC 61131-2: Circuits with a nominal voltage of U to other Test voltage circuits or ground...
Technical specifications 8.5 Interface description Interface description 8.5.1 Power supply Plug connector, 2-pin Pin number Assignment +24 VDC (L+) GND 24 V (M) 8.5.2 PROFIBUS (Sub-D RS422/485) Name of interface on HMI device: X2 Sub-D socket, 9-pin, with screw lock Assignment for the RS 422 Assignment for the RS 485 n.
Technical specifications 8.5 Interface description 8.5.3 PROFINET (Ethernet) Name of interface on HMI device: X1 RJ45 plug connector Assignment Tx– n. c. n. c. Rx– n. c. n. c. Meaning of LEDs State Green "SPEED" LED Yellow "LINK" LED No connection 10 MB connection 100 MB connection Active data transfer 10 MB...
Page 515
Technical specifications 8.6 Functional scope with WinCC flexible and WinCC Functional scope with WinCC flexible and WinCC The following tables show the objects that can be integrated in a project for a Basic Panel. Alarms Object Specification Basic Panels Alarms Number of discrete alarms Number of analog alarms Length of the alarm text...
Page 516
Technical specifications 8.6 Functional scope with WinCC flexible and WinCC Recipes The specified values are maximum values and should not be used additive. Object Specification Basic Panels Recipes Quantity Elements per recipe Data records per recipe Safety Object Specification Basic Panels Safety Number of user groups Number of users...
Page 517
Technical specifications 8.6 Functional scope with WinCC flexible and WinCC New system functions In addition to the system functions already available, WinCC flexible 2008 SP2 and WinCC V11 or higher support the following system functions for the Basic Panels: System function/syntax Application SetBitInTag (Tag, Bit) Sets a bit in the specified tag to 1 (TRUE).
Page 518
Technical specifications 8.6 Functional scope with WinCC flexible and WinCC Basic Panels Operating Instructions, 04/2012, A5E02421799-03...
Service and support You can find additional information and support for the products described on the Internet at the following addresses: ● Technical support (http://www.siemens.de/automation/csi_en_WW) ● Support request form (http://www.siemens.com/automation/support-request) ● After-sales information system for SIMATIC PC / PG (http://www.siemens.com/asis) ●...
Technical Support A.2 System events System events System events on the HMI device provide information about internal states of the HMI device and PLC. Note System events are only indicated if an alarm window was configured. System events are output in the language currently set on your HMI device. System event parameters System events may contain encrypted parameters which are relevant to troubleshooting because they provide a reference to the source code of the runtime software.
Abbreviations ANSI American National Standards Institution Central Processing Unit Comma Separated Values Clear To Send Direct Current Data Carrier Detect DHCP Dynamic Host Configuration Protocol Dual-in-Line (electronic chip housing design) Domain Name System Distributed I/O Data Source Name Data Set Ready Data Terminal Ready Input and Output Components and modules endangered by electrostatic discharge...
Page 522
Abbreviations PELV Protective Extra Low Voltage RJ45 Registered Jack Type 45 Request to send Receive Data SD Card Security Digital Card SELV Safety Extra Low Voltage Service Pack Programmable Logic Controller Super Twisted Nematic Sub-D Subminiature D (plug) Tabulator TCP/IP Transmission Control Protocol/Internet Protocol Thin Film Transistor Teletype...
Glossary "Transfer" mode HMI device operating mode for transferring an executable project from the configuring PC to an HMI device. Acknowledge Acknowledgment of an alarm confirms that it has been noted. Alarm, acknowledgment Acknowledgment of an alarm confirms that it has been noted. Alarm, activated Moment at which an alarm is triggered by the PLC or HMI device.
Page 524
Glossary Configuring PC A configuring PC is a programming device or PC on which plant projects are created using an engineering software. Display duration Defines whether a system alarm is displayed on the HMI device and the duration of the display.
Page 525
Glossary HMI device image The HMI device image is a file that can be transferred from the configuring PC to the HMI device. The HMI device image contains the operating system of the HMI device , including the elements of the Runtime software required for the executable project file. I/O field Enables the input or output of values on the HMI device and their transfer to the PLC.
Page 526
Glossary Project A project is the result of a configuration using an engineering software. The project usually contains several screens with embedded system-specific objects, basic settings and alarms. A project configured in WinCC flexible is saved to a project file with the extension *.hmi. There is a difference between an offline project on a configuring PC and an online executable project on an HMI device.
Page 527
Glossary Runtime software The Runtime software is a process visualization software which can be used to test projects on a configuring PC. Screen Mode of visualization of all logically associated process data of a plant. Visualization of the process data can be supported by means of graphic objects. Screen object Refers to objects such as rectangles, I/O fields, or alarm views which are configured for visualization or operation of the plant.
Page 528
Glossary Transfer Transfer of an executable project from the configuring PC to the HMI device. WinCC WinCC (TIA Portal) is engineering software for configuring SIMATIC Panels, SIMATIC Industrial PC and standard PC with the visualization software WinCC Runtime Advanced or the SCADA system, WinCC Runtime Professional.