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Siemens LOGO! 24, Manual

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LOGO! Manual
A5E00067781  01

Welcome to LOGO!

Dear customer,

Thank you for purchasing LOGO!, and congratulations on your
decision. In LOGO! you have acquired a logic module that meets
the stringent quality requirements of ISO 9001.

LOGO! is universal in application. Its comprehensive functionality
and great ease of use make it a highly cost–efficient solution for
virtually any application.

LOGO! documentation

This LOGO! manual tells you how to install, program and use
LOGO!.

You can find information on wiring in the LOGO! manual as well as
in the LOGO! product information that is supplied with each de-
vice. You can get further information on programming LOGO! via
the PC in the LOGO!Soft Comfort online help system. LOGO!Soft
Comfort is the programming software for PCs. It runs under
WINDOWS

 and will help you get to know LOGO! and to write,

test, print out and archive programs independently of LOGO!.

Guide to the manual

We have subdivided this manual into 9 chapters:

Getting to Know LOGO!

Installing and Wiring LOGO!

Programming LOGO!

LOGO! Functions

Parameterizing LOGO!

LOGO!’s Program Modules

LOGO! Software

Applications

Appendices

Additional support

You can find answers to your LOGO! questions quickly and easily
on the Internet at http://www.ad.siemens.de/logo.

Summary of Contents for LOGO! 24

Page 1: ...s well as in the LOGO product information that is supplied with each de vice You can get further information on programming LOGO via the PC in the LOGO Soft Comfort online help system LOGO Soft Comfort is the programming software for PCs It runs under WINDOWS and will help you get to know LOGO and to write test print out and archive programs independently of LOGO Guide to the manual We have subdiv...

Page 2: ...n result if proper precautions are not taken Note Draws your intention to particularly important information on the product handling the product or to a particular part of the documentation Warning Only qualified personnel should be allowed to install and work on this equipment Qualified personnel are defined as persons who are authorized to commission to ground and to tag circuits equipment and s...

Page 3: ...event of a patent being granted or the registration of a utility model or design Disclaimer of Liability We have checked the contents of this manual for agreement with the hardware and soft ware described Nevertheless discrepancies cannot be ruled out and we therefore cannot guarantee full correspondence However the data in this manual is reviewed regularly and any necessary corrections included i...

Page 4: ...er Supply 24 3 Programming LOGO 27 3 1 Connectors 28 3 2 Blocks and Block Numbers 30 3 3 From the Circuit Diagram to LOGO 33 3 4 The 4 Golden Rules for Working with LOGO 36 3 5 Overview of LOGO s menus 38 3 6 Entering and Starting a Program 39 3 6 1 Switching to Programming Mode 39 3 6 2 First Program 40 3 6 3 Entering a Program 42 3 6 4 Second Program 49 3 6 5 Deleting a Block 55 3 6 6 Deleting a...

Page 5: ...Protection 76 4 3 6 Gain and Offset Calculation for Analog Values 76 4 4 List of Special Functions SF 77 4 4 1 On Delay 80 4 4 2 Off Delay 82 4 4 3 On Off Delay 84 4 4 4 Retentive On Delay 86 4 4 5 Latching Relay 88 4 4 6 Current Impulse Relay 90 4 4 7 Interval Time Delay Relay Pulse Output 92 4 4 8 Edge Triggered Interval Time Delay Relay 94 4 4 9 Seven Day Time Switch 95 4 4 10 Twelve Month Time...

Page 6: ...ecting a Parameter 131 5 1 3 Changing a Parameter 132 5 2 Setting the Time LOGO C 135 6 LOGO Program Modules 137 6 1 Overview of the Modules 138 6 2 Removing and Inserting Modules 139 6 3 Copying a Program from LOGO to the Program Module Card 141 6 4 Copying from the Module to LOGO 142 7 LOGO Software 145 7 1 Possible Applications for LOGO Software 147 7 2 Connecting LOGO to a PC 148 7 3 Transfer ...

Page 7: ...ntilation System 163 8 3 2 Advantages of Using LOGO 166 8 4 Industrial Gate 168 8 4 1 Demands on the Gate Control System 168 8 4 2 Previous Solution 169 8 4 3 Enhanced LOGO Solution 171 8 5 Centralized Activation and Surveillance of Several Industrial Gates 172 8 5 1 Demands on the Gate Control System 173 8 6 Fluorescent Luminaires 177 8 6 1 Demands on the Lighting System 177 8 6 2 Previous Soluti...

Page 8: ... 24 Long 196 A 5 Technical Specifications LOGO 12 199 A 6 Technical Specifications LOGO Power 12 V 203 A 7 Technical Specifications LOGO Power 24 V 205 A 8 Technical Specifications LOGO Contact 24 230 207 B Determining Memory Requirements 208 C Determining the Cycle Time 210 D LOGO Without a Display 212 E LOGO LB11 Active Passive Switchover 215 F LOGO Menu Structure 217 Order Numbers 218 Abbreviat...

Page 9: ...n use LOGO for domestic and installation engineer ing tasks e g stairway lighting external lighting sun blinds shutters shop window lighting etc switch cabinet engineering and mechanical and apparatus engineering e g gate control systems ventilation systems or rainwa ter pumps etc You can also use LOGO for specific control systems in conservatories or greenhouses for signal preparation in control ...

Page 10: ... with dimen sions of 126 x 90 x 55 mm A bus variant with 12 inputs and 8 outputs and addi tional AS interface bus connection via which 4 further inputs and 4 further outputs are available in the bus sys tem All this is packed into dimensions of 126 x 90 x 55 mm All variants include 29 ready to use basic and special func tions for program creation It s your choice The various variants can be adapte...

Page 11: ... 90 55 LOGO L LOGO LB11 1 2 3 126 35 90 L1 N I1 I2 I3 I4 Q1 Q3 Q4 SIEMENS I5 I6 Q2 Q5 Q6 Q7 Q8 I7 I8 AS interface I9 I10 I11 I12 3 4 5 6 7 1 2 4 3 Outputs Power supply Inputs Module shaft with cover 5 6 7 AS interface connection only with LB11 Control panel not with RCo LCD not with RCo I4 I5 I6 I1 I2 I3 Getting to Know LOGO ...

Page 12: ...ction We also use icons to describe the different types of LOGO They are used whenever information refers to only some of the LOGO variants Standard variant with 6 or 8 inputs and 4 outputs with di mensions of 72 x 90 x 55 mm Standard variant without a display with 6 or 8 inputs and 4 outputs with dimensions of 72 x 90 x 55 mm L variant with 12 inputs and 8 outputs with dimensions of 126 x 90 x 55...

Page 13: ...4RC AC 4 x 230 V 10A Relay LOGO 230RC 4 x 230 V 10A Relay LOGO 12 24RCo 4 x 230 V 10A Relay LOGO 24RCo AC 4 x 230 V 10A Relay LOGO 230RCo 4 x 230 V 10A Relay LOGO 12RCL 8 x 230 V 10A Relay LOGO 24L 8 x 24 V 0 3 A Transistor LOGO 24RCL 8 x 230 V 10A Relay LOGO 230RCL 8 x 230 V 10A Relay LOGO 24RCLB11 8 x 230 V 10A Relay LOGO 230RCLB11 8 x 230 V 10A Relay Also with analog inputs Getting to Know LOGO...

Page 14: ...al injury or property damage can result if you withdraw any connectors while the system is in operation Always ensure that the system is deenergized before you disconnect LOGO plug connections and associated components in potentially explo sive areas LOGO carries CE marking complies with the VDE 0631 and IEC1131 standards and has interference suppression to EN 55011 limit class B class A for ASi b...

Page 15: ...7 LOGO Manual A5E00067781 01 Marking for Australia SIMATIC products with the marking shown on the left meet the requirements of the AS NZS 2064 Standard Class A Getting to Know LOGO ...

Page 16: ...ction of between 1 5 mm2 and 2 5 mm2 see Section 2 2 Don t screw the connectors too tightly The maximum torque is 0 5 Nm see Section 2 2 Keep wiring distances as short as possible If longer wires are necessary a shielded cable should be used You should lay wires in pairs a neutral conductor to gether with a phase conductor or signal conductor Isolate AC wiring and high voltage DC wiring with rapid...

Page 17: ...Note LOGO must be installed and wired by a trained technician who knows and complies with both the universally applica ble engineering rules and the regulations and standards that apply in specific cases Installing and Wiring LOGO ...

Page 18: ... B11 is 126 mm wide which corresponds to the size of 7 modules Note We will show you how to install and deinstall LOGO with the aid of an illustration of the LOGO 230RC The mea sures described also apply to all other LOGO modules Installing To install LOGO on a DIN rail proceed as follows 1 Place LOGO on the rail 2 Swivel it onto the rail so that the snap catch on the back of LOGO engages Dependin...

Page 19: ...stalling To deinstall LOGO proceed as follows 1 Insert a screwdriver in the hole shown in the picture at the lower end of the snap catch and pull the snap catch downwards 1 2 2 Swivel it away from the DIN rail Installing and Wiring LOGO ...

Page 20: ... of touching live parts 2 2 1 Connecting the Power Supply LOGO 230 variants are suitable for line voltages with a rating of 115 V AC and 230 V AC and LOGO 24 variants and 12 variants are suitable for 24 V DC and 24 V AC or 12 V DC supply voltage Note the information on connec tion in the product information document shipped with your device and the technical specifications in Appendix A relat ing ...

Page 21: ...nnect LOGO to the system proceed as follows L1 L N M LOGO 12 24 LOGO 230 Protection by fuse if required recommended 12 24 RC 0 8 A 24 2 0 A 24 L 3 0 A Note LOGO has protective insulation A ground terminal is not necessary Installing and Wiring LOGO ...

Page 22: ...rrent 1 0 mA 0 05 mA 1 0 mA 0 05 mA Schaltzustand 1 8 V DC 8 V DC 8 V DC 8 V DC Input current 1 5 mA 0 1 mA 1 5 mA 0 1 mA LOGO 24 RC RCo AC LOGO 230 RC RCo Circuit state 0 5 V AC 40 V AC Input current 1 0 mA 0 03 mA Circuit state 1 12 V AC 79 V AC Input current 2 5 mA 0 08 mA LOGO 12 RCL LOGO 24 L LOGO 24 RCL LOGO 230 RCL Circuit state 0 4 V DC 5 V DC 5 V DC 40 V AC Input current 0 5 mA 1 5 mA 1 5...

Page 23: ... place for at least one program cycle for LOGO to recognize the new circuit state The cycle time of the program processing depends on the size of the program In the appendix you can find a description of a short test program that will help you to work out the current cycle time Fast inputs LOGO apart from LOGO 230 24 RC and 24 RCo also has inputs for frequency functions The same restrictions do no...

Page 24: ... inputs or as analog inputs How the input is used depends on its purpose in the LOGO control program You can use the digital capability of the input with I7 I8 and its analog capability with the identifiers AI1 and AI2 See also Section 4 1 Note Always use twisted wires for analog signals and keep them as short as possible Installing and Wiring LOGO ...

Page 25: ...and therefore require the same reference potential ground as the power supply You can also pick up analog signals between the power supply and ground LOGO 230 standard variant L1 N Warning Existing safety regulations VDE 0110 and IEC 1131 as well as UL and CSA prohibit the connection of different phases to the inputs of LOGO 230 Installing and Wiring LOGO ...

Page 26: ...ame applies to these groups as for the individual inputs of a standard LOGO Different phases are possible only between the blocks Warning Existing safety regulations VDE 0110 and IEC 1131 as well as UL and CSA prohibit the connection of different phases to one input block of LOGO L Installing and Wiring LOGO ...

Page 27: ... the following proper ties The maximum switched current depends on the type of load and the number of operations You will find more information on this in the technical specifications When switched on Q 1 the maximum current is 10 amperes 8 A at 230 V AC for a non inductive load and 3 amperes 2 A at 12 24 V AC DC for an inductive load Connecting To connect the load to LOGO R variants proceed as fo...

Page 28: ...erload proof A separate voltage supply to the load is not necessary since LOGO supplies the load with voltage Prerequisites for transistor outputs The load connected to LOGO must have the following properties The maximum switched current is 0 3 amperes per out put Connecting To connect the load to LOGO with transistor outputs pro ceed as follows Load 24 V DC 0 3 A max LOGO 24 LOGO 24L Load Load Lo...

Page 29: ...ia the ASi bus Operate 4 additional outputs on one overlaid master of the ASi bus Configure LOGO B11 in the ASi bus by means of the ASi master you are using Prerequisites for operation on an ASi master Please note LOGO B11 must be registered in the ASi system e g LOGO is assigned an address by the bus master Please read Section 2 2 5 to find out how to do this with LOGO Caution The ASi address can...

Page 30: ...the ASi Bus LOGO B11 must be known to the bus master if you are to be able to use the ASi functionality This takes places automatically when you connect LOGO B11 to the bus lead The master detects the address of the slave In the case of LOGO B1 the address preset at the fac tory 0 The master assigns a new address that is not equal to 0 If there are no address conflicts in the system or if only one...

Page 31: ...23 LOGO Manual A5E00067781 01 Note If you are connecting several slave assemblies e g LOGO B11 to the bus at the same time please read Appendix E Installing and Wiring LOGO ...

Page 32: ...O s response to the possible situ ations No Program No Program Program PC Card Start I 123456 Q 1234 RUN Mo 09 00 With stored pro gram from LOGO B01 Q1 No program in memory empty with program or B03 Par Cnt 0028 Par 0300 LOGO in RUN empty with program or I 123456 Q 1234 RUN Mo 09 00 I 123456 Q 1234 RUN Mo 09 00 Program in memory Program PC Card Start empty or With program copied from module to LOG...

Page 33: ...us it had before power off If you are using a variant without display LOGO RCo it automatically changes from STOP to RUN the LED changes from red to green 4 If you have switched on retentivity for at least one func tion or are using a function with retentivity permanently switched on its current values are retained at power off Note If a power failure occurs while you are entering a program you wi...

Page 34: ...START in the main menu not LOGO RCo Switch LOGO to parame terization mode not LOGO RCo The LED lights up green LOGO RCo only Action by LOGO The inputs are not read The program is not exe cuted The relay contacts are al ways open or the transistor outputs are switched off Action by LOGO LOGO reads the state of the inputs LOGO calculates the state of the outputs with the pro gram LOGO switches the r...

Page 35: ...and apparatus construction LOGO RCo variants are not programmed on the device Programs from LOGO software or from memory modules of other LOGO devices are transferred into the device In the first section of the chapter a brief example will help you get to know how to use LOGO We will begin by introducing the two basic terms con nector and block and showing you what is meant by them In a second ste...

Page 36: ...ied by the letter I and a number When you look at LOGO from the front you can see the connec tors for the inputs at the top Each output is identified by the letter Q and a number You can see the connectors of the outputs in the figure below Note Inputs and outputs that are made available with LOGO B11 by means of the AS interface bus connection are physical inputs on LOGO itself Note that it is th...

Page 37: ...n order to facili tate program entry for you hi high has the fixed state 1 and lo low has the fixed state 0 If you don t want to wire an input on a block use the x connector You can find out what a block is on the next page LOGO recognizes the following connectors Connec tors Inputs I1 I6I I7 AI1 I8 AI2 I1 I12 I1 I12 and Ia1 Ia4 AS interface Outputs Q1 Q4 Q1 Q8 Q1 Q8 and Qa1 Qa4 AS interface lo Si...

Page 38: ...ormation With earlier variants of LOGO you had to wire up the individual elements in the control cabinet or terminal box When you program LOGO you connect connectors with blocks To do this simply select the connection you require from the Co menu Co stands for connector Logic operations The simplest blocks are logic operations AND OR I1 I2 x 1 Inputs I1 and I2 are connected to the OR block The las...

Page 39: ...hows that a further block is connected Input Connection is not required Output Block Assigning a block number Whenever you insert a block in a program LOGO assigns that block a number LOGO uses the block number to indicate the connections between the blocks The block numbers are therefore chiefly meant to help you find your way around the pro gram I1 I2 I3 1 B01 B02 B02 1 B03 Q1 B01 B01 Move aroun...

Page 40: ...es you the work required to enter things again as well as memory space and ensures that your circuit re mains clear In this case you have to know how LOGO has named the blocks Note To make working with LOGO particularly efficient we rec ommend that you draw up a diagram overview of the pro gram This will make it easier to create the program You can then enter the block numbers assigned by LOGO in ...

Page 41: ...by means of the switches S1 OR S2 AND S3 ODER OR UND AND The relay K1 picks up when S1 or S2 and also S3 are closed S3 Implementing a circuit with LOGO You create a circuit In LOGO by connecting blocks and connectors to each other S1 S3 Wiring of the inputs I3 x Q1 1 I1 I2 x Program in LOGO Wiring of the outputs To implement a circuit in LOGO begin at the output of the circuit The output is the lo...

Page 42: ...ed a complete description of the circuit for LOGO You now need to connect the inputs and out puts to LOGO Wiring Connect switches S1 to S3 to the screw connectors of LOGO Connect S1 to connector I1 on LOGO Connect S2 to connector I2 on LOGO Connect S3 to connector I3 on LOGO Only 2 inputs of the OR block are used so the third input must be marked as unused This is indicated by the x next to it Lik...

Page 43: ...67781 01 Wiring example The following table shows you the wiring based on a 230 V variant of LOGO L1 N Wiring of the inputs Wiring of the outputs S 1 S 3 S 2 L1 N Wiring of the outputs of a LOGO L Load Load Programming LOGO ...

Page 44: ...es of times and parameters in parame terization mode Switch to parameterization mode by pressing the 2 keys ESC and OK at the same time Rule 2 Outputs and inputs Always enter a circuit from output to input You can connect an output to several inputs but not several outputs to one input You can t connect an output to a preceding input within a program path Insert markers or outputs in such cases re...

Page 45: ...exit circuit input When the cursor appears in the form of a solid block you should select a connector block Use the keys or to select a connector block Press OK to accept a selection Press ESC to go back one step Rule 4 Planning Before you enter a circuit draw up a complete plan of it on paper or program LOGO directly using LOGO Soft or LOGO Soft Comfort LOGO can only store complete programs If yo...

Page 46: ...of LOGO s menus Program PC Card Start Edit Prg Clear Prg Set Clock ASi_BUS PC Card Card Main menu Programming menu PC card menu Set Clock Set Param OK OK ESC ESC Parameterization menu Programming mode Parameterization mode LOGO Programming LOGO ...

Page 47: ...ay No Program Switch LOGO to programming mode To do this press the keys and OK at the same time The fact that you have to press the keys simultaneously prevents anyone pressing them and switching to programming mode inadvertently No Program When you press the keys LOGO s main menu appears Program PC Card Start LOGO s main menu On the left in the first line you will see Use the keys and to move the...

Page 48: ... LOGO s first output Q1 Use the keys and keys to select the other outputs At this point you begin to enter your circuit 3 6 2 First Program Let s have a look at the following circuit a parallel connec tion of two switches Circuit diagram How a circuit is represented in a circuit diagram K1 S1 K1 S2 E1 The consumer is switched on by switch S1 or switch S2 As far as LOGO is concerned the parallel co...

Page 49: ... Program I1 and I2 are connected to the input of the OR block S1 to I1 and S2 to I2 Thus the program in LOGO looks like this I1 I2 x Q1 1 Wiring The wiring is as follows L1 N I1 I2 I3 I4 I5 I6 Q1 Q2 Q3 Q4 SIEMENS L1 N S1 S2 L N Switch S1 acts on input I1 and switch S2 on input I2 The consumer is connected to relay Q1 Programming LOGO ...

Page 50: ... to the left The cursor indicates your position in the program Q1 At this point enter only the first block the OR block Press OK to switch to input mode The cursor appears in the form of a solid block you can select a connector or block Q1 Co The cursor no longer appears in the form of an underline instead it appears as a solid block that flashes on and off At the same time LOGO offers you the fir...

Page 51: ...is still in the block and ap pears in the form of a solid block Press OK to conclude your selection 1 The following appears in the display panel B01 Q1 B01 1 Q1 Your entire program looks like this Block number You have now entered the first block Each block you enter receives a number the block number All you have to do now is wire the inputs of the block To do this proceed as follows Press OK 1 T...

Page 52: ...nected to the input of the OR block The cursor jumps to the next input of the OR block 1 The following appears in the display panel B01 Q1 1 Q1 Your entire program so far looks like this in LOGO I1 I1 B01 Now connect input I2 to the input of the OR block You know how to do this already 1 Switch to input mode OK 2 Select the Co list keys or 3 Accept the Co list OK 4 Select I2 keys or 5 Accept I2 OK...

Page 53: ... you know the princi ple already 1 Switch to input mode OK 2 Select the Co list keys or 3 Accept the Co list OK 4 Select x keys or 5 Accept x OK Thus all the block s inputs are now wired As far as LOGO is concerned the program is now complete LOGO returns to output Q1 The following appears in the display panel 1 Q1 Your program looks like this I1 B01 I2 Q1 B01 x If you want to have another look at...

Page 54: ...ermanently so that it will not be lost in the event of a power failure The pro gram is stored in LOGO until you expressly delete it by entering the appropriate command 2 Return to the main menu ESC Switching LOGO to RUN 3 Move to Start keys or 4 Accept Start OK LOGO switches to RUN In RUN LOGO displays the fol lowing LOGO s display panel in RUN State of the inputs Current time variants with time s...

Page 55: ...t outputhas the state 1 inverse Input output has the state 0 not inverse Mo 09 00 I 12345678 9 10 11 12 I 123456 Mo 09 00 Q 1234 RUN Q 12345678 State display Let s have a look at that in our example I 123456 Mo 09 00 Q 1234 RUN L1 N S1 S2 1 When switch S1 is closed voltage is applied to input I1 which has the state 1 LOGO calculates the states of the outputs with the pro gram Output Q1 has the sta...

Page 56: ...A5E00067781 01 48 The next step You have now successfully entered your first circuit In the next section we will show you how to make changes to existing programs and use special functions in them Programming LOGO ...

Page 57: ... modify the first one slightly Let s begin by looking at the circuit diagram for the second program L1 N S1 S2 You already know the first part of the circuit Switches S1 and S2 op erate a relay This relay switches on consumer E1 and switches it off af ter a delay of 12 minutes K1 K1 E1 In LOGO the program looks like this 1 Q1 I1 I2 x x T This is the additional new block You will recognize the OR b...

Page 58: ...t Edit Prg from the programming menu by moving to Edit Prg and press OK You can now modify the existing program Inserting an additional block in a program Move the cursor to the B of B01 B01 is the block number of the OR block Q1 B01 Move the cursor Press At this point we insert the new block Press OK Q1 BN LOGO displays the BN list Select the SF list key Q1 SF The SF list contains the blocks for ...

Page 59: ... positioned at the uppermost input of the inserted block B01 T Q1 B02 The off delay block has 3 inputs The uppermost input is the trigger input Trg Use this input to start the off delay In our example the off delay is started by the OR block B01 Reset the time and outputs using the reset input and set the time for the off delay using the T parameter In our example we don t use the reset input of t...

Page 60: ... modi fied there B02 T T 00 00s Time value Time unit The cursor appears on the first position of the time value To change the time value proceed as follows Use the keys and to move the cursor to different positions Use the keys and to change the value When you have entered the time value press OK Setting the time Set the time T 12 00 minutes 1 Move the cursor to the first position or 2 Select 1 or...

Page 61: ...ime T cannot be changed in parameterization mode 9 Conclude your input OK Checking the program This branch of the program for Q1 is now complete LOGO displays the Q1 output You can have another look at the program on the display Use the keys to move through the program Use or to move from block to block and use and to move between the inputs on a block Exiting programming mode Exit program input i...

Page 62: ...LOGO Manual A5E00067781 01 54 LOGO is now in RUN again I 123456 Q 1234 RUN Mo 09 00 Programming LOGO ...

Page 63: ...g mode 3 finger grip 2 Select Edit Prg by pressing OK 3 Position the cursor at the input of Q1 i e under B02 using the key B02 Q1 4 Press OK 5 Connect block B01 instead of block B02 directly to out put Q1 Select the BN list and press OK Select B01 and press OK Result Block B02 is now deleted because it is no longer used anywhere within the entire circuit Block B01 is now connected directly to the ...

Page 64: ...e 3 finger grip 2 Select Edit Prg by pressing OK 3 Position the cursor at the input of Q1 i e under B02 B02 Q1 4 Press OK 5 Set the connector x instead of block B02 at the Q1 out put Select the Co list and then press OK Select x and then press OK Result Block B02 is now deleted because it is no longer used anywhere within the entire circuit and all the blocks that are connected to it are deleted i...

Page 65: ...ver you can delete the old block and insert a new one You can insert whichever block you like 3 6 8 on the Display If you have entered a program and want to exit Edit Prg with ESC LOGO checks whether you have wired all the inputs of all the blocks correctly If you have forgotten an input or parameter LOGO displays the first place at which you have forgotten something and marks with a question mark...

Page 66: ... Prg Set Clock LOGO switches to the programming menu 3 Move the to Clear Prg or 4 Accept Clear Prg OK Clear Prg No Yes To prevent you from inadvertently delet ing the program we have included an additional query If you do not want to delete the program leave the on No and press OK If you are sure that you want to delete the program stored in LOGO proceed as follows 5 Move the to Yes or 6 Press OK ...

Page 67: ...values of a counter RAM The area in which LOGO stores the current ac tual values e g the counter status Timer The area LOGO uses for time functions such as the off delay REM The area in which LOGO stores actual values that have to be retained e g the count value of an op erating hours counter In blocks with selective use of the retentive feature this memory area is only used if the retentive featu...

Page 68: ... relay 1 1 1 0 On delay 1 1 1 0 Off delay 2 1 1 0 On off delay 2 1 1 0 Retentive on delay 2 1 1 0 Seven day time switch 6 2 0 0 Twelve month time switch 2 0 0 0 Up down counter 2 2 0 2 Operating hours counter 2 0 0 4 Symmetrical clock pulse gen erator 1 1 1 0 Asynchronous pulse genera tor 3 1 1 0 Random generator 2 1 1 0 Frequency trigger 3 3 1 0 Analog trigger 4 2 0 0 Analog comparator 3 4 0 0 St...

Page 69: ... only be used a maximum of 3 times leaving just 3 REM memory areas left Although there are still 42 Par memory areas free you are one REM memory area short to run an additional operating hours counter Calculation Free memory areas divided by the required number of memory areas Carry out this calculation for each memory area required Par RAM timer REM The lowest value shows you the maximum number o...

Page 70: ...ts display elements available in LOGO Normally these are all the connectors all the basic functions and all the special functions that the respective LOGO variant knows These elements also include all the blocks you have created in LOGO before you call up the BN list When LOGO no longer displays everything LOGO no longer displays all elements if No further block must be inserted In this case there...

Page 71: ...as a digital value If they are used as AI1 and AI2 the signals are interpreted as analog values In the case of special functions which can only be effec tively connected with analog inputs on the input side only the analog inputs AI1 and AI2 are offered for selection in programming mode when the input signal is selected ASi inputs Inputs Ia1 to Ia4 are also available for communication via the ASi ...

Page 72: ...ag It is automatically reset after the first cycle of program processing As regards setting deletion and evaluation memory marker M8 can be used in the same way as memory mark ers M1 to M7 in all subsequent cycles Note The signal applied at the marker s output is always that of the last program cycle The signal is not changed within a program cycle Levels Voltage levels are identified by hi and lo...

Page 73: ...t Circuit diagram representation Representation in LOGO Designation of the basic function Series connection of normally open contacts AND see page 67 AND with RLO edge detection see page 67 Parallel connec tion of normally closed contacts NAND AND not see page 68 NAND with RLO edge detection see page 69 Parallel connec tion of normally open contacts OR see page 67 Series connec tionof normally clo...

Page 74: ... A5E00067781 01 66 Circuit diagram representation Designation of the basic function Representation in LOGO Double change over XOR exclusive OR see page 71 Inverter NOT negation inverter see page 71 LOGO Functions ...

Page 75: ...n of this block is not wired x then the follow ing applies to the input x 1 Logic table for AND 1 2 3 Q 0 0 0 0 0 0 1 0 0 1 0 0 0 1 1 0 1 0 0 0 1 0 1 0 1 1 0 0 1 1 1 1 4 2 2 AND with RLO Edge Detection Symbol in LOGO The output of AND with RLO edge detection only adopts the state 1 when all inputs have the state 1 and at least one input had the state 0 in the previous cycle If an input pin of this...

Page 76: ...ly closed contacts is repre sented in a circuit diagram as follows Symbol in LOGO The output of NAND only adopts the state 0 if all the inputs have the state 1 i e they are closed If an input pin of this block is not wired x then the follow ing applies to the input x 1 Logic table for NAND 1 2 3 Q 0 0 0 1 0 0 1 1 0 1 0 1 0 1 1 1 1 0 0 1 1 0 1 1 1 1 0 1 1 1 1 0 LOGO Functions ...

Page 77: ... not wired x then the follow ing applies to the input x 1 Timing diagram for NAND with RLO edge detection 1 Cycle 3 Q 2 1 2 3 4 5 6 7 8 9 10 4 2 5 OR The parallel connection of a number of normally open contacts is represented in a circuit diagram as follows Symbol in LOGO The output of the OR adopts the state 1 if at least one in put has the state 1 i e it is closed If an input pin of this block ...

Page 78: ...ircuit diagram as follows Symbol in LOGO The output of NOR only adopts the state 1 if all the inputs have the state 0 i e they are switched off As soon as any of the inputs is switched on state 1 the output of NOR is set to 0 If an input pin of this block is not wired x then the follow ing applies to the input x 0 Logic table for NOR 1 2 3 Q 0 0 0 1 0 0 1 0 0 1 0 0 0 1 1 0 1 0 0 0 1 0 1 0 1 1 0 0 ...

Page 79: ...R 1 2 Q 0 0 0 0 1 1 1 0 1 1 1 0 4 2 8 NOT Negation Inverter A normally closed contact is repre sented in a circuit diagram as follows Symbol in LOGO The output adopts the state 1 if the input has the state 0 In other words NOT inverts the state at the input The advantage of the NOT function can be illustrated by the following example you no longer require normally closed contacts for LOGO You use ...

Page 80: ...r inputs are named Special functions in clude time functions retentivity and various parameterization options to adapt the program to your indi vidual requirements In this section we would like to give you a brief overview of the input descriptions and provide you with some important background information about special functions The indi vidual special functions are described in Section 4 4 LOGO ...

Page 81: ... frequency Frequency signals to be evaluated are applied at the input with this description Dir direction You use this input to set the direction in which a counter should count for example En enable This input enables the function of the block If the input is at 0 other signals are ignored by the block Inv invert The output signal of the block is inverted when this input is activated Ral reset al...

Page 82: ...ot wired Here you set time bases P priority This input is not wired Here you set priorities 4 3 2 Time Response Parameter T With some of the special functions it is possible to parame terize a time value T When specifying the time note that the values to be entered depend on the time base set Time Base _ _ _ _ s seconds Seconds 1 100 seconds m minutes Minutes Seconds h hours Hours Minutes B01 T T ...

Page 83: ...t in the clock in C variants running inaccurately the time switch is regu larly compared with a high precision time base and ad justed accordingly This results in a maximum time error of 5s a day 4 3 3 Clock Buffering The internal clock of a LOGO module continues to run if there is a power failure i e it has a power buffer The dura tion of the reserve power is affected by the ambient tem perature ...

Page 84: ...ers allow the internal repre sentation of an analog value to be aligned with the actual measured value Parameter Minimum Maximum Connector voltage in V 0 10 Internal process image 0 1000 Gain in 0 1000 Offset 999 999 A connector voltage of 0 to 10 V is mapped internally to values of 0 to 1000 A connector voltage greater than 10 V is also represented as 1000 in the internal process image You can us...

Page 85: ...ions from circuit diagrams as well as an indication as to whether the function in question has parameterizable retentivity Circuit diagram representation Representation in LOGO Description of the special function Re On delay see page 80 Off delay see page 82 On off delay see page 84 R K 1 K 1 Q Tr g K 1 Retentive on delay see page 86 R S K1 K 1 Latching relay see page 88 Re Current impulse relay s...

Page 86: ...time delay relay see page 92 Edge triggered interval time delay relay see page 94 New Seven day time switch see page 95 Twelve month time switch see page 100 Up and down counter see page 102 Re Operating hours counter see page 105 Symmetrical clock pulse generator see page 108 Asynchronous pulse generator see page 110 LOGO Functions ...

Page 87: ...f the special function Representation in LOGO Random genera tor see page 111 Frequency trigger see page 113 Analog trigger see page 115 Analog comparator see page 118 Stairwell light switch see page 122 Dual function switch see page 124 Message texts see page 126 LOGO Functions ...

Page 88: ... after which the output is switched on out put signal is switched from 0 to 1 Output Q Q switches on after expira tion of the defined time T if Trg is still set Parameter T Please note the parameter values for the T parameter in Section 4 3 2 Timing diagram Trg T T Ta starts Q The bold part of the timing diagram ap pears in the on delay symbol Description of function When the state at the Trg inpu...

Page 89: ...t to 1 after the time T has elapsed there is a delay between the input being switched on and the output coming on If the state at the Trg input switches back to 0 before the time T has elapsed the time is reset The output is reset to 0 if the state at the Trg input is 0 In the event of a power failure the elapsed time is reset LOGO Functions ...

Page 90: ...nput R The input R resets the elapsed time for the off delay and sets the output to 0 Parameter T T is the period after which the output is switched off output signal is switched from 1 to 0 Output Q Q switches on when Trg does but when Trg switches off remains on until the delay period T has elapsed Parameter T Please note the parameter values for the T parameter in Section 4 3 2 Timing diagram T...

Page 91: ... the current time Ta starts in LOGO and the output remains set If Ta reaches the values specified via T Ta T the output Q is reset to 0 off delay If the Trg input switches on and off again the time Ta starts again The input R Reset resets the elapsed time Ta and the out put before the set time delay Ta has elapsed In the event of a power failure the elapsed time is reset LOGO Functions ...

Page 92: ...ay A falling edge change from 1 to 0 starts the time TL for the off delay Parameter Par TH is the time after which the output is switched on output signal is switched from 0 to 1 TL is the time after which the output is switched off out put signal is switched from 1 to 0 Output Q Q switches on after the parameterized time TH has elapsed if Trg is still set and switches off after the time TL has el...

Page 93: ... the input being switched on and the output coming on If the state at the input Trg switches back to 0 before the time TH has elapsed the time is reset When the state at the input changes to 0 again the timed period TL elapses If the state at the input Trg remains at 0 at least for the duration of the parameterized time TL the output is set to 0 after the time TL has elapsed there is a delay betwe...

Page 94: ...for the on delay Input R Input R resets the time for the on delay and sets the output to 0 Parameter T T is the time after which the output is switched on out put state is switched from 0 to 1 Output Q Q is switched on when the delay period T has elapsed Parameter T Please refer to the note in Section 4 3 2 when specifying the values Timing diagram Trg T Ta starts Q R T The bold part of the timing...

Page 95: ...the current time Ta starts When Ta reaches the time T output Q is set to 1 Another switching operation at the Trg input has no effect on Ta The output and the time Ta are not reset to 0 until the state of the R input changes to 1 again In the event of a power failure the elapsed time is reset LOGO Functions ...

Page 96: ...e time then the output is reset Parameter Par This parameter is used to switch retentivity on or off Rem off no retentive feature on the state can be stored retentively Output Q Q switches on when S does and remains on until the in put R is set Timing diagram S R Q Switching behavior A latching relay is a simple binary memory cell The signal at the output depends on the states of the inputs and th...

Page 97: ... 0 0 x State remains the same 0 1 0 Reset 1 0 1 Set 1 1 0 Reset resetting has priority over setting After power failure the signal that was valid before the power failure is set at the output if the retentive feature was switched on LOGO Functions ...

Page 98: ...s the output to 0 Parameter Par This parameter is used to switch retentivity on or off Rem off no retentive feature on the state can be stored retentively Output Q Q switches on when Trg is sent and remains switched on until T expires Timing diagram Trg Q R The bold part of the timing dia gram appears in the current im pulse relay symbol Description of function Every time the state at the input Tr...

Page 99: ...R input to reset the current impulse relay to its ini tial state i e the output is set to 0 After power failure the current impulse relay is reset and the Q output changes to 0 if you haven t switched on the retentive feature LOGO Functions ...

Page 100: ...omes on with Trg and re mains on during the time Ta and while the input is set to 1 Parameter T Please refer to the note on the T parameter in Sec tion 4 3 2 Timing diagram Trg T has not expired completely Ta starts Q The bold part of the timing diagram appears in the interval time delay relay symbol T Description of function When the input Trg switches to the state 1 the output Q immediately swit...

Page 101: ...93 LOGO Manual A5E00067781 01 If the state at the input Trg switches back from 1 to 0 be fore the specified time has elapsed the output also imme diately switches back from 1 to 0 LOGO Functions ...

Page 102: ...es but when Trg switches off remains on until the delay period T has elapsed Parameter T Please refer to the note on the T parameter in Sec tion 4 3 2 Timing diagram Trg Ta starts Q The bold part of the timing diagram appears in the edge triggered interval time delay relay symbol T T Description of function When the input Trg switches to the state 1 the output Q immediately switches to the state 1...

Page 103: ...s No 1 No 2 No 3 The No cam parameter is used to set the on and off times for each of the cams of the seven day time switch You specify the times in terms of day and time Output Q Q switches on when the parameterizable cam is switched on Timing diagram 3 examples Monday Wednesday Tuesday Saturday Friday Thursday Sunday Q 1 No 1 3 1 2 3 1 1 1 1 No1 Daily 06 30 hours to 08 00 hours No2 Tuesday 03 10...

Page 104: ... off time on another cam on the seven day time switch then the on and off times conflict In such cases cam 3 has priority over cam 2 and cam 2 has priority over cam 1 Parameter assignment window The parameter assignment window for cam no 1 for ex ample is as follows B01 No1 D MTWTFSS On 06 30 Off 08 00 On time 06 30 hours See the section Displaying hiding parameters type of protection on page53 Of...

Page 105: ...e and keys to select one or more days of the week 4 Use the key to move the cursor to the first position for the on time 5 Set the on time Use the and keys to change the value To move the cursor from one position to another use the and keys You can only select the value at the first digit means no switching operation 6 Use the key to move the cursor to the first position for the off time 7 Set the...

Page 106: ...is the parameter assignment window for cams 2 and 3 from the above timing diagram Cam 1 Cam 1 is to switch on the output of the seven day time switch every day from 05 30 to 07 40 B01 No1 D MTWTFSS On 05 30 Off 07 40 Cam 2 Cam 2 is to switch on the output of the seven day time switch every Tuesday from 03 10 to 04 15 B01 No2 D T On 03 10 Off 04 15 Cam 3 Cam 3 is to switch on the output of the seve...

Page 107: ...99 LOGO Manual A5E00067781 01 Result 1 No Monday Wednesday Tuesday Saturday Friday Thursday Sunday 1 3 1 2 3 Q 1 1 1 1 LOGO Functions ...

Page 108: ... month time switch Output Q Q switches on when the parameterizable cam is switched on Timing diagram MM DD On 02 20 Off 04 03 On Off February 20 April 3 Feb Mar Apr Description of function At the on time the twelve month time switch switches the output on and at the off time it switches the output off The off date indicates the date on which the output is reset to 0 The first value indicates the m...

Page 109: ...pril 4 switched on again on July 7 and switched off on November 19 For this you require 2 twelve month time switches each of which is con figured for one of the on periods The outputs are then linked by an OR block B01 No MM DD On 03 01 Off 04 04 B02 No MM DD On 07 07 Off 11 19 On Off 1 March 4 April 7 July 19 November B01 B02 LOGO Functions ...

Page 110: ... be used to reset the internal count value and the output to zero Input Cnt The counter counts the changes from state 0 to state 1 at the Cnt input Changes from state 1 to state 0 are not counted Maximum count frequency at the input connectors 5 Hz Input Dir The Dir input allows you to specify the counting direc tion as follows Dir 0 count up Dir 1 count down Parameter Par Lim is the count thresho...

Page 111: ...lue and the output to 000000 As long as R 1 the out put remains set to 0 and the pulses at the input Cnt are not counted Par parameter setting B03 Par Rem off Lim 000100 Count value Retentivity See the section Displaying hiding parameters type of protection on page53 If the internal counter value is greater than or equal to Par output Q is set The counter remains the same in the case of under or o...

Page 112: ...LOGO Manual A5E00067781 01 104 If the retentive feature is switched on when a power failure occurs the counter status remains the same and this value is used once power is restored LOGO Functions ...

Page 113: ...counter is stopped The input R resets the out put The remaining period of the service interval MN is set to MN MI The pre viously elapsed time re mains stored Input En En is the monitoring input LOGO measures the length of time in which this input is set Input Ral Ral 0 Hours can be counted if R is not 1 Ral 1 The counter is stopped The input Ral Reset all re sets the counter and the output i e Ou...

Page 114: ...emaining time MN 0 see timing diagram the output is set MI parameterized count value MN remaining time OT total time elapsed since the last 1 signal at the Ral input Timing diagram MI Defined time period MN Remaining period OT Total elapsed time since last 1 signal at input Ral Par Q R Ral En MN MI OT MN 0 The counter stops counting as long as R or Ral is set MI 5h 1h x R 1h R x LOGO Functions ...

Page 115: ...ues to run The Ral reset input resets the output Q and the counter for the remaining time to the specified value MI The internal counter OT is reset to 0 You can look at the current values for MN and OT during program execution in parameterization mode Limit value for OT When you reset the hours counter with the signal R the accumulated time remains stored in OT The maximum limit for the counter O...

Page 116: ...switches on and off cycli cally in time with the pulse period T Parameter T Please refer to the note in Section 4 3 2 when specifying the values Timing diagram En Q T T T T The bold part of the timing diagram appears in the symmetrical clock pulse generator symbol Description of function The parameter T specifies the length of the on and off peri ods Use the En enable input to switch the clock pul...

Page 117: ...ay outputs Relay outputs that switch under load get worn a little with each switching operation To find out how many switching operations a LOGO output can execute refer to the Chap ter entitled Technical Specifications see Chapter A LOGO Functions ...

Page 118: ...chronous clock pulse generator when active Parameter Par You can set the pulse dura tion TH and the interpulse period TL Output Q Q switches on and off cycli cally with the times TH and TL Timing diagram En Inv TH Q TL TH TL TH TL TH Description of function You can set the pulse duration and interpulse period using the parameters TH Time High and TL Time Low Both parameters have the same time base...

Page 119: ...t starts the on delay time of the random generator A falling edge change from 1 to 0 starts the off delay time of the random genera tor Parameter Par The on delay time is set ran domly between 0 s and TH The off delay time is set ran domly between 0 s and TL TL must have the same time base as TH Output Q Q switches on after the on delay time has elapsed if Trg is still set and switches off after t...

Page 120: ...ation of the on delay time the output is set to 1 after the on delay time has elapsed If the state at the input En switches back to 0 before the on delay time has elapsed the timer is reset If the state at the input En changes again to 0 a random time off delay time between 0 s and TL is defined and started If the state at the input En remains at 0 at least for the duration of the off delay time t...

Page 121: ... you apply the input that supplies the pulses to be counted Use Inputs I5 I6 or I11 I12 LOGO L for rapid counts not LOGO 230 24RC 24RCo max 1 kHz Any other input or circuit component for lower fre quencies Parameter Par SW SW G_T SW on threshold SW off threshold G_T time period over which the signal pulses applied are counted Output Q Q switches on or off de pending on SW and SW Timing diagram Q S...

Page 122: ...f threshold Par parameter setting B03 Par SW 0050 SW 0048 G_T 01 00s On threshold Degree of protection Time interval for pulses Off threshold SW is the on threshold It can be any frequency in the range 0000 to 9999 SW is the off threshold It can be any frequency in the range 0000 to 9999 G_T is the time interval in which the pulses applied to Cnt are measured G_T can be a period between 00 05 s an...

Page 123: ...ction Description Input Ax At the output Ax apply the analog signal to be evalu ated Use the connectors I7 AI1 or I8 AI2 0 10 V corresponds to 0 1000 internal value Parameter Par SW SW Gain in Value range 0 1000 Offset Value range 999 SW on threshold Value range 19990 SW off threshold Value range 19990 Output Q Q is set or reset depending on the threshold values Gain and Offset parameters Refer to...

Page 124: ...ction reads in the analog value AI1 or AI2 The Offset parameter is then added to the analog value This value is then multiplied by the Gain parameter If this value exceeds the on threshold SW the output Q is set to 1 Q is reset to 0 again if the value violates the off threshold SW LOGO Functions ...

Page 125: ...re used to adapt the sensors used to the relevant application Parameter assignment B03 Par SW 00000 SW 00000 0050 Gain in Degree of protection On threshold Off threshold Press key Offset SW 00000 SW 00000 0050 200 Display in PARAM mode example B02 Par SW 400 SW 200 Ax 20 LOGO Functions ...

Page 126: ... and Ay At the Ax and Ay inputs ap ply the analog signals whose difference is to be evaluated Use the connectors I7 AI1 and I8 AI2 Parameter Par Gain in Value range 0 1000 Offset Value range 999 Threshold value Output Q Q is set to 1 if the difference between Ax and Ay ex ceeds the threshold value Gain and Offset parameters Refer to the information in Section 4 3 6 on the Gain and Offset parameter...

Page 127: ...perations 1 The value parameterized for Offset is added to Ax and Ay 2 Ax and Ay are multiplied by the Gain parameter 3 The function produces the difference between the ana log values Ax and Ay If this value exceeds the threshold value parameterized under the output Q is set to 1 Otherwise Q is reset to 0 Rule for calculation Q 1 when Ax offset gain Ax offset gain threshold value LOGO Functions ...

Page 128: ...067781 01 120 Par parameter setting The Gain and Offset parameters are used to adapt the sensors used to the relevant application B03 Par 00000 0050 200 Gain in Degree of protection Threshold value Offset LOGO Functions ...

Page 129: ...e trig gered e g burner on The real temperatures are to be displayed in PARAM mode Temperature sensors with the following technical specifica tions are available 30 to 70 C 0 to 10V DC Application Internal Representation 30 to 70 C 0 to 10V DC 0 to 1000 0 C 300 Offset 300 Value range 30 to 70 C 100 1000 Gain 100 1000 0 1 10 Switching threshold 15 C Threshold value 15 Parameter assignment B03 Par 0...

Page 130: ... Trg Use the Trg trigger input to start the time for the stair well light switch off delay Parameter T T is the time after which the output is switched off out put state changes from 1 to 0 Minutes are set as the de fault time base Output Q Q is switched off when the time T has elapsed 15 s be fore the time has elapsed the output switches to 0 for 1 s Parameter T Please refer to the note in Sectio...

Page 131: ...he output Q is reset to 0 Another switch at the input Trg during Ta resets Ta retrigger option In the event of a power failure the elapsed time is reset Changing the time base You can also set other values for the warning time and warning duration Time Base T Warning Time Warning Duration Seconds 750 ms 50 ms Minutes 15 s 1 s Hours 15 min 1 min Only relevant for programs with a cycle time of 25 ms...

Page 132: ...tched on it can be reset with Trg Parameter Par TH is the time after which the output is switched off output state changes from 1 to 0 TL is the length of time that has to be set for the input to activate the permanent light function Output Q The output Q switches on with Trg and switches off again after a parameteriz able time depending on the length of the pulse to Trg or it is reset after Trg i...

Page 133: ... to 1 If the time Ta reaches the time TH the output Q is reset to 0 In the event of a power failure the elapsed time is reset If the state 0 changes to 1 at the input Trg and 1 remains set at least for the time TL the permanent light function is activated and the output Q is switched on permanently If the input Trg is switched again TH is reset and the output Q is switched off LOGO Functions ...

Page 134: ...e state as the input En Limitation A maximum of 5 message text functions are possible Description of function If the state at the input changes from 0 to 1 the message text you have parameterized is displayed in RUN mode If the state at the input changes from 1 to 0 the message text is not displayed If several message text functions have been triggered with En 1 the message with the highest priori...

Page 135: ...eter assignment window for P B03 P Priority 1 To parameterize the message text proceed as follows parameter assignment window for Par Use the key to select a line that is to contain a message text Press the OK key to switch to edit mode for this line Use the keys and select the letter to be displayed To move the cursor from one position to another use the keys and Press OK to apply the changes or ...

Page 136: ...nd press the key Par P Press the OK key to switch to edit mode B01 T Use the keys and to select between the blocks to be displayed and the corresponding parameters Use the keys and to select the block or the parameter to be displayed To select the parameter press OK Press the ESC key to exit parameter assignment mode Your changes are applied LOGO Functions ...

Page 137: ...set the parameters In programming mode In parameterization mode In parameterization mode the programmer sets a value for a parameter We introduced parameterization mode so that parameters can be changed without having to change the program In this way a user can change the times without having to change into programming mode The advantage of this is that the program and thus the circuit is protect...

Page 138: ...ck menu item is executed only if your version of LOGO has a clock time switch those versions of LOGO that have a clock have the letter C in their name e g LOGO 230RC Set Clock allows you to set LOGO s time switch 5 1 1 Parameters The following can be parameters The delay times of a time relay The switching times cams of a time switch The threshold value of a counter The monitoring time of an opera...

Page 139: ... the first cam of a time switch clock Par refers to several counters that can be monitored 5 1 2 Selecting a Parameter To select a parameter proceed as follows 1 Select the Set Param option from the parameterization menu Set Clock Set Param 2 Press the OK key LOGO displays the first parameter If parameters can not be set you can use ESC to return to the parameter ization menu Parameterizing LOGO ...

Page 140: ... a separate window 4 To change a parameter select it and press OK 5 1 3 Changing a Parameter To change a parameter you first have to select it see Se lecting a parameter You change the value of the parameter in the same way as you entered it in programming mode 1 Move the cursor to the point at which you want to make the change or 2 Change the value or 3 Accept the value OK B01 T Ta 00 00m To move...

Page 141: ...et time T see Changing a parame ter Current value of the time switch If you view a cam of a time switch in parameterization mode it looks like this for example The time switch is off state 0 at the output The time switch is on state 1 at the output B02 No1 Off 10 00 Day Su The circuit state of the time switch is displayed On 09 00 1 1 0 LOGO displays the circuit state of the time switch rather tha...

Page 142: ...erating hours counter If you view the parameters of an operating hours counter in parameterization mode it looks like this B05 Par MI 0100h MN 0017h OT 00083h Remainingtime Operating hours elapsed Monitoring time Current value of a threshold switch If you view the parameter of a threshold switch in parame terization mode it looks like this B06 Par Off threshold Measured value On threshold SW 0050 ...

Page 143: ... 99 The cursor is posi tioned before the day of the week 3 Select the day of the week or 4 Move the cursor to the next position or 5 Change the value or 6 Set the clock to the correct time Repeat steps 4 and 5 7 Conclude your input OK Setting the time in programming mode 1 Switch to programming mode and OK at the same time 2 Select Program and press OK 3 Select using or Set Clock and press OK Now ...

Page 144: ...GO to RUN Time displayed Mo 09 17 I 12345678 9 10 11 12 Q 12345678 2 Press OK and The current time is put forward by one hour Time displayed after change Mo 10 17 I 12345678 9 10 11 12 Q 12345678 Change the time in the opposite direction in the same way 3 Press OK and The current time is put back by one hour Time displayed after change Mo 09 17 I 12345678 9 10 11 12 Q 12345678 Parameterizing LOGO ...

Page 145: ...do the following Archive programs Duplicate programs Send programs by post Write and test programs in the office and then transfer them to a different LOGO in the cabinet LOGO is supplied with a cover You receive the program module card separately Note You do not require a module for permanently storing the program in your LOGO The LOGO program is already stored permanently when programming mode i...

Page 146: ...t cannot be looked at copied or changed i e your data is protected Programs saved like this can only be run if the module re mains inserted in LOGO while the system is in operation Warning Make sure that you don t save your program on a module with program protection if you intend to edit it further You can start up a program on a module with know how protection but not read it for the pur pose of...

Page 147: ...red program module know how protection and copy protection always remember that the program stored on the module can only run if the module is inserted and remains inserted for the entire time If the module is removed LOGO displays the message no program Removing the red module during operation leads to impermissible operating statuses Always heed the following warning Warning Do not put your fing...

Page 148: ...gram module card out of the shaft a little You can now remove the program module card Inserting the program module card The shaft for the program module card is chamfered at the lower right edge The program module card also has a chamfered edge This prevents you from inserting the pro gram module card the wrong way around Insert the pro gram module card into the shaft until it engages LOGO Program...

Page 149: ...le card into the shaft 2 Switch LOGO to programming mode and OK at the same time Program PC Card Start 3 Move the to PC Card 4 Press OK The transfer menu appears PC Card Card LOGO 5 Move the to LOGO Card 6 Press OK LOGO copies the program to the program module card When LOGO has finished copying it automatically returns to the main menu Program PC Card Start LOGO Program Modules ...

Page 150: ...module card containing your program You can copy the program to LOGO in two ways Automatically when LOGO starts up power on Via LOGO s PC Card menu Note Please note that not all programs stored on the modules can be read in all LOGO variants If necessary read Sec tion 6 1 again Automatic copying when LOGO starts up Proceed as follows 1 Switch off the power supply to LOGO power down 2 Remove the co...

Page 151: ... that the system you are controlling with LOGO does not repre sent a source of danger 1 Move the to Start 2 key 2 Press OK Using the PC Card menu to copy Read the note about changing the program module card To copy a program from the program module card to LOGO proceed as follows 1 Insert the program module card 2 Switch LOGO to programming mode and OK at the same time Program PC Card Start 3 Move...

Page 152: ...ansfer menu appears PC Card Card LOGO 5 Move the to Card LOGO key or 6 Press OK Result LOGO copies the program from the program mod ule card to LOGO As soon as LOGO has finished copy ing LOGO automatically displays the main menu LOGO Program Modules ...

Page 153: ...The LOGO programming software thus represents an al ternative to the conventional means of planning 1 First you develop your applications at your desk 2 You simulate the application in your computer and test whether or not it functions properly before the circuit is actually put to use 3 You print out the entire circuit in a block diagram or in several block diagrams sorted according to outputs 4 ...

Page 154: ...dows 95 98 and Win dows NT 4 0 or higher is server capable and offers you freedom and maximum convenience when creating pro grams LOGO Soft Comfort V2 0 This is the current version of LOGO Soft Comfort As of Version 2 0 you will find all the functions and functionality of the new devices as well described in this manual Upgrading LOGO Soft Comfort V1 0 If you have an old LOGO Soft Comfort function...

Page 155: ...stallation read the product information documen tation and the text files on the CD ROM To install the software simply follow the instructions on the installation program To start the installation program pro ceed as follows installation on CD ROM should start auto matically 1 Select and start SETUP EXE in Windows 95 98 and Windows NT 4 0 either by choos ing Start Run and entering the line drive S...

Page 156: ...onnect the cable there Connect the other end of the cable to the serial port of your PC Switching LOGO to PC LOGO Mode There are two ways to connect the PC and LOGO LOGO is either switched to transfer mode when it is on or auto matically when the LOGO power supply is switched on and the transfer cable is in place To switch LOGO to PC LOGO mode proceed as fol lows 1 Switch LOGO to programming mode ...

Page 157: ...ings To transfer programs between the PC and LOGO you must make certain settings in the LOGO software You can make these settings using the menu of the software you are using LOGO Soft Comfort Specify which LOGO LOGO Soft Comfort works out which LOGO variant you will need to use the written program Options Interface You can enter the serial port to which LOGO is connected You can also find out the...

Page 158: ...strial gates 172 Fluorescent luminaires 177 Rainwater pump 181 Other applications 185 Note The LOGO applications are provided free of charge to our customers The examples they contain are not binding and are included to provide general information on how LOGO can be used Customer specific solutions may be different The user is responsible for ensuring that the system oper ates properly We would al...

Page 159: ...ld go out in order to save energy 8 1 2 Previous Solution Conventionally there have been two ways to control such a lighting system as follows By means of a current impulse relay By means of automatic stairway lighting The wiring for the two lighting systems is identical ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ Lights Switches Distribution by means of current impulse relay or automatic stairway lighting Di...

Page 160: ...or an extended period of time e g for cleaning purposes The permanent on switch is usually on the stairwell lighting timer unit which may be difficult or impossible to gain ac cess to 8 1 3 Lighting System with LOGO You can use a LOGO module to replace the stairwell light ing timer or the current impulse relay And you can imple ment both functions timed off delay and current impulse relay in a sin...

Page 161: ...hod of wir ing a corridor or stairwell lighting system Only the auto matic lighting timer current impulse relay is replaced Addi tional functions are entered directly in LOGO Current impulse relay with LOGO I1 Switch Q1 Lights x In the event of a gate pulse at input I1 output Q1 switches over Automatic stairway lighting system with LOGO I1 Switch Q1 Lights T 06 00m In the event of a gate pulse at ...

Page 162: ...T 06 00m has elapsed off delay When the switch is pressed twice The light is switched on permanently the latching relay is set via the current impulse relay When the switch is pressed for 2 seconds The light is switched off on delay switches the light off both the permanent light and the normal light this branch of the circuit is therefore used twice You can enter these circuits several times for ...

Page 163: ...t goes off automati cally You can integrate various central functions Central off Central on panic button Control of all lights or individual circuits by a daylight control switch Control by the integrated time switch e g permanent light only until 24 00 hours no enab ling at certain times Automatic switching off of the permanent light after a preset time has elapsed e g after 3 hours Applications...

Page 164: ... If there is nobody in the doorway anymore it must close automatically after a short time ÌÌÌÌÌ ÌÌÌÌÌ ÑÑÑÑÑ ÑÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÑÑÑÑ ÌÌÌÌ ÌÌÌÌ ÌÌÌÌ ÌÌÌÌ ÌÌÌÌ ÌÌÌÌ ÌÌÌÌ ÌÌÌÌ Outside Inside B1 B2 Limit switch closed Limit switch open Main switch Q1 S1 S2 Motion detector Main switch Motion detector Motion detector The door is generally driven by a motor with a safety clutch This ...

Page 165: ... of the motion detectors B1 or B2 registers somebody s presence the door is opened by K3 If the two motion detectors detect nothing for a minimum period K4 enables the close operation 8 2 3 Door Control System with LOGO LOGO allows you to considerably simplify the circuit You need only connect the motion detectors the limit switches and the master contactors to LOGO Applications ...

Page 166: ... Q1 Q2 Q3 Q4 SIEMENS K1 K2 Open Close B1 B2 S2 S1 L1 N LOGO 230RC Components used K1 Master contactor Open K2 Master contactor Close S1 NC contact Limit switch Closed S2 NC contact Limit switch Open B1 NO contact Infrared motion detector Outside B2 NO contact Infrared motion detector Inside Applications ...

Page 167: ... to the circuit diagram of the conventional solution looks like You can simplify this circuit if you make use of LOGO s functions You can use the off delay to replace the latching relay and on delay The following function block diagram illustrates this simplification 1 1 1 I4 I3 I1 I2 x Q2 Q1 x 10 s Close Open Limit switch Door closed Limit switch Door open Motion detector Q1 Q2 Applications ...

Page 168: ...ect a buzzer to one of LOGO s outputs to indicate when the door is about to close You can include time and direction dependent enabling of door opening so that it only opens during shop open ing hours or only from the inside to the outside after closing time 8 2 5 Enhanced LOGO 230RC Solution Wiring of the enhanced LOGO solution L1 N I1 I2 I3 I4 I5 I6 SIEMENS K1 K2 Open Close B1 B2 S2 S1 L1 N Buzz...

Page 169: ...On 09 00 Off 19 00 No2 Day Sa On 08 00 Off 14 00 I1 I2 Motion detector B1 Motion detector B2 T 10 s x I5 Control switch Door open Q2 Close output I4 Limit switch Door open Q1 Open Q2 Close x Q1 I1 I2 Open output Motion detector B1 Motion detector B2 I3 Limit switch Door closed I6 Control switch Close door Detecting motion Motor for opening Motor for closing Applications ...

Page 170: ...d the door is to be constantly open or The motion detectors indicate that somebody is ap proaching the door and The door is not yet fully open limit switch at I4 Motor for closing Output Q2 is switched on and closes the door when the following occurs The control switch at 16 is operated the door is to be constantly closed or The motion detectors indicate that there is nobody near the door and The ...

Page 171: ...ÉÉÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ Fresh air fan Flow sensor Extractor fan Flow sensor The room contains an extractor fan and a fresh air fan Both fans are monitored by a flow sensor The pressure in the room must not be allowed to rise above atmospheric pressure The fresh air fan must only be switched on provided reli able func...

Page 172: ...no air flow is registered the system is switched off and a fault reported Acknowledge this by pressing the stop switch Monitoring the fans requires an analyzer circuit with several switching devices in addition to the flow sensors The ana lyzer circuit can be replaced by a single LOGO module Wiring of the ventilation system with LOGO 230RC L1 N I1 I2 I3 I4 I5 I6 Q1 Q2 Q3 Q4 SIEMENS K1 K2 Exhaust f...

Page 173: ...or H1 Indicator lamp H2 Indicator lamp Block diagram of the LOGO solution The block diagram of the ventilation control system with LOGO is as follows x I1 On Q3 Fault I2 Off Q1 Exhaust fan Q2 Fresh air fan Q1 Extractor fan I3 Exhaust air flow sensor x I2 Off Fault x T 10 s x T 10 s x x x I3 Exhaust air flow sensor I4 Fresh air flow sensor Extractor fan Q1 Extractor fan Q2 Q3 Applications ...

Page 174: ...e signaling contact in the event of a fault or a power fail ure It is possible to stagger the switching off of the fans These functions can be implemented without additional switching devices Functional block diagram of the enhanced LOGO solution The fans at Q1 and Q2 are switched on and off as shown in the following circuit x T 10 s T 30 s Q1 Exhaust fan Q2 Fresh air fan On I2 Off Fault Q3 x x I3...

Page 175: ... via output Q4 Q3 Fault Q4 Message The relay contacts of output Q4 are always closed when the system is running Relay Q4 does not release unless there is a power failure or a fault in the system This con tact can be used for teleindication for example Applications ...

Page 176: ...e Control System The gate is opened and closed by operating a switch in the gatehouse The gateman is able to monitor the op eration of the gate at the same time The gate is normally fully opened or closed However movement of the gate can be halted at any time A flashing light is activated 5 seconds before the gate begins to move and continues for as long as the gate is in motion A safety pressure ...

Page 177: ...le gate control circuit K1 K5 K3 S1 Open Close S0 K3 K2 Flashing light Auxiliary circuit L1 N K1 H1 K4 S5 p K6 K6 K1 S2 S2 K3 K2 K4 Open Close K5 S5 p S1 K3 K1 S4 S3 Wiring of the gate control system with LOGO 230RC L1 N I1 I2 I3 I4 I5 I6 Q1 Q2 Q3 Q4 SIEMENS K1 K3 Open Close S4 S3 L1 N S1 S2 S0 S5 p S5 p Flashing light H1 Open Close Stop LOGO 230RC Applications ...

Page 178: ... s x x x x Q1 Open Q3 Flashing light Q2 Close I3 I4 I3 I6 I5 I1 I2 Q2 Q1 Safety bar Gate is closed Gate is open Stop switch Open Start switch Stop switch Close start switch T 2 s I2 I1 Open start switch Close start switch Open Start switch The open and close start switches move the gate in the appropriate direction provided it is not already moving in the other direction Movement of the gate is ha...

Page 179: ...e gate will automatically open again when the safety bar is operated x x I6 Safety bar x Q2 I3 I4 Gate is open Stop switch x I1 Q2 Open start switch T 5 s Q1 Open T 5 s x Q2 Close I3 I6 I5 I2 Q1 Safety bar Gate is closed Stop switch Close start switch Q3 Flashing light T 2 s Applications ...

Page 180: ...ys be surveilled directly by a member of staff They must therefore be able to be surveilled and operated by a gateman who sits in a central control room It is also important to ensure that a member of staff can open and close the gate directly at the gate A LOGO 230RCLB11 is used for each gate The modules are linked to each other and an ASi master by means of the ASi bus In this chapter we will de...

Page 181: ...sing switches at the gate The ASi bus connection enables the gateman to open and close the gate from the gatehouse The state GATE OPEN or GATE CLOSED is indicated in the gatehouse A flashing light is activated 5 seconds before the gate begins to move and continues for as long as the gate is in motion A safety pressure bar ensures that nobody gets injured and nothing gets trapped or damaged when th...

Page 182: ...ate closed Gate open Flashing light S0 S1 S2 S3 S4 S5 S6 p S6 p Components used K1 Master contactor opening K2 Master contactor closing S0 NO contact OPEN cord operated switch S1 NO contact CLOSE cord operated switch S2 NO contact Open switch S3 NO contact Close switch S4 NC contact OPEN GATE position switch S5 NC contact CLOSE GATE position switch S6 NC contact Safety pressure bar Applications ...

Page 183: ...175 LOGO Manual A5E00067781 01 Higher level control system Qa1 OPEN GATE position switch Qa2 CLOSE GATE position switch Ia1 External OPEN GATE switch Ia2 External CLOSE GATE switch Applications ...

Page 184: ...Flas hing light Gate is open Gate open Gate open Gate is open Gate is open Open gate by hand Close gate by hand Safety bar Safety bar Closed Gate is closed Gate is closed Gate is open Closed Open The OPEN gate and CLOSE gate start switches move the gate in the appropriate direction provided it is not already moving in the other direction Movement of the gate is halted by the relevant limit switch ...

Page 185: ...er of lamps used depends on the level of lighting required For reasons of cost efficiency fluorescent lumin aires arranged in rows of tubes are often used They are subdivided into switching groups according to how the room is used 8 6 1 Demands on the Lighting System The fluorescent luminaires are switched on and off lo cally If there is sufficient natural light the luminaires on the window side o...

Page 186: ... interval time delay relays so that it is still possible to switch the lights on and off locally after they have been switched off centrally Components required Switches S1 to S4 Daylight control switch B1 Time switch E1 Interval time delay relays K1 and K2 Remote control switches with central off K3 to K6 Disadvantages of the previous solution To implement the required functions a large amount of...

Page 187: ... LOGO 230RC L1 N I1 I2 I3 I4 I5 I6 Q1 Q2 Q3 Q4 SIEMENS L1 N E2 E3 E4 B1 lx Fluorescent lamp 1 E5 Fluorescent lamp 2 Fluorescent lamp 3 Fluorescent lamp 4 S1 S2 S3 S4 LOGO 230RC Components used S1 to S4 NO contact Switches B1 NO contact Daylight control switch Applications ...

Page 188: ...acity of the individual outputs is not exceeded In the case of greater capacities you should use a power contactor Connect the brightness sensitive switch directly to one of LOGO s inputs You don t need a time switch since this function is inte grated in LOGO The fact that fewer switching devices are required means that you can install a smaller sub distribution unit and thus save space Fewer devi...

Page 189: ...stem works ÕÕÕ ÕÕÕ ÕÕÕ ŠŠŠ ŠŠŠ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ Run dry prevention on Mains water inlet on Run dry prevention off Mains water inlet off Pump Pressure tank Pressure switch S1 ÕÕÕ ÕÕÕ S2 S3 S4 M1 Rainwater collecting tank Water pipe Control in the distribution box Mains water inlet K4 Rainwater inlet The rainwater is collected in a large water butt From the water butt it is pumped by a pumpin...

Page 190: ...system 8 7 2 Previous Solution K1 K2 K3 Pump Overrun time S1 K3 S4 K3 Run dry protection Auxiliary circuit L1 N K4 S3 K4 Pure water inlet p K2 S3 S2 Y1 The pump and a solenoid valve are controlled by means of a pressure switch and 3 float switches that are fitted in the rainwater butt The pump must be switched on when the pressure in the cylinder falls below the minimum level Once the operating pr...

Page 191: ... using a 3 phase AC motor you must use a master contactor for switching the pump On systems using single phase AC pumps you must fit a contactor if the AC pump requires a higher current than can be switched by the output relay Q1 The power of a solenoid valve is so low that it can normally be controlled directly K1 Master contactor Y1 Solenoid valve S1 NO contact Pressure switch S2 NO contact Floa...

Page 192: ... Enhancement Options The function diagram shows how you can connect up the control system for the pump and the solenoid valve Its lay out corresponds to that of the current flow diagram You also have the possibility of incorporating additional func tions for specific applications that would only be possible with the inclusion of extra equipment if you were using con ventional technology e g Enabli...

Page 193: ...llance Exterior lighting Control system for shutters Interior and exterior lighting for an apartment block Control system for a cream stirrer Sports hall lighting Equal distribution of 3 loads Sequence control system for cable welding machines with large cross sections Step switch e g for fans Boiler sequence control Control system for several pump sets with centralized operation Cutting device e ...

Page 194: ...use the wiring is done in LOGO Want to reduce the space required for components in the control cabinet distribution box You may be able to use a smaller control cabinet distribution box Can add or change functions subsequently without hav ing to install an additional switching device or change the wiring Have to provide your customers with additional func tions for their domestic or building insta...

Page 195: ...d power supply Do you have any suggestions There are definitely more ways to use LOGO If you know of one why not write to us We will collect all the sugges tions we receive and we intend to pass on as many as we can So drop us a line no matter how unusual or simple your LOGO circuit is We would be delighted to receive your suggestions Write to Siemens AG A D AS MVM LOGO Postfach 48 48 D 90327 Nuer...

Page 196: ...nditions Ambient temperature Horizontal installation Cold IEC 68 2 1 0 55 C Horizontal installation Vertical installation Heat IEC 68 2 2 0 55 C 0 55 C Storage transport 40 C 70 C Relative humidity IEC 68 2 30 From 5 to 95 no condensation Air pressure 795 1080 hPa Pollutants IEC 68 2 42 IEC 68 2 43 SO2 10 cm3 m3 4 days H2S 1 cm3 m3 4 days Mechanical environmental conditions Type of protection IP20...

Page 197: ... tion EMC emitted interference EN 50081 2 Interference immunity EN 50082 2 Burst pulses IEC 801 4 Severity 3 2 kV supply and signal lines B11 variants to ASi Complete Specification V 2 0 dated 27 11 95 Energy carriers Single pulse surge applies only to LOGO 230 IEC 801 5 Severity 2 0 5 kV power lines symmetrical 1 kV power lines asym metrical Information on IEC VDE safety Measurement of clear ance...

Page 198: ...ypically 10 ms Typically 10 ms 115 V AC Typically 10 ms Typically 10 ms 230 V AC y y Typically 20 ms y y Typically 20 ms 230 V AC Typically 20 ms Typically 20 ms Power loss at 115 V AC 1 1 3 5 W 1 7 7 5 W 115 V AC 1 1 3 5 W 1 7 7 5 W 230 V AC 2 3 4 6 W 3 4 9 2 W 230 V AC 2 3 4 6 W 3 4 9 2 W Clock buffering at 25 C Typically 80 h Typically 80 h Accuracy of the real time clock Max 5 s a day Max 5 s ...

Page 199: ...escent lamp load 25 000 switching cycles at 230 240 V AC 115 120 V AC 1000 W 500 W 1000 W 500 W Fluorescent tubes with electr control gear 25 000 switch ing cycles 10 x 58 W at 230 240 V AC 10 x 58 W at 230 240 V AC Fluorescent tubes conven tionally compensated 25 000 switching cycles 1 x 58 W at 230 240 V AC 1 x 58 W at 230 240 V AC Fluorescent tubes uncom pensated 25 000 switching cycles 10 x 58...

Page 200: ...t relay if desired Max 16 A characteristic B16 Max 16 A characteristic B16 Switching rate Mechanical 10 Hz 10 Hz Ohmic load lamp load 2 Hz 2 Hz Inductive load 0 5 Hz 0 5 Hz ASi slave connection LOGO 230RCLB11 only ASi profile I O config ID code 7 F 7h Fh Number of virtual digital in puts 4 Number of virtual digital out puts 4 Power supply ASi power supply unit Power consumption Typically 30 mA Ele...

Page 201: ... 0 3 1 8 W AC Clock buffering at 25 C Typically 80 h Accuracy of the real time clock Max 5 s a day Digital inputs Number 8 6 Electrical isolation No No Input voltage L Signal 0 5 V DC 5 V AC g Signal 1 8 V DC 12 V AC Input current at Signal 0 1 0 mA I1 I6 0 05 mA I7 I8 1 0 mA Signal 1 1 5 mA I1 I6 0 1 mA I7 I8 2 5 mA Delay time at 0 after 1 Typically 1 5 ms Typically 1 5 ms 1 after 0 y y Typically...

Page 202: ... Incandescent lamp load 25 000 switching cycles at 1000 W Fluorescent tubes with electr control gear 25 000 switch ing cycles 10 x 58 W Fluorescent tubes conven tionally compensated 25 000 switching cycles 1 x 58 W Fluorescent tubes uncom pensated 25 000 switching cycles 10 x 58 W Short circuit proof and over load proof Yes Short circuit current limitation Approx 1 A Derating None throughout the e...

Page 203: ...er protection B16 900A Parallel switching of outputs to increase power Not permitted Not permitted Protection of output relay if desired Max 16 A characteristic B16 Switching rate Mechanical 10 Hz Electrical 10 Hz Ohmic load lamp load 10 Hz 2 Hz Inductive load 0 5 Hz 0 5 Hz Technical Specifications ...

Page 204: ... V DC 0 2 0 8 W 0 3 2 9 W Clock buffering at 25 C Typically 80 h Accuracy of the real time clock Max 5 s a day Electrical isolation No No Reverse polarity protection Yes Yes Digital inputs Number 12 12 Electrical isolation No No Input voltage L Signal 0 5 V DC 5 V DC g Signal 1 12 V DC 12 V DC Input current at Signal 0 1 5 mA 1 5 mA g Signal 1 4 5 mA 4 5 mA Delay time at 0 after 1 Typically 1 5 ms...

Page 205: ...ent lamp load 25 000 switching cycles at 1000 W Fluorescent tubes with electr control gear 25 000 switch ing cycles 10 x 58 W Fluorescent tubes conven tionally compensated 25 000 switching cycles 1 x 58 W Fluorescent tubes uncom pensated 25 000 switching cycles 10 x 58 W Short circuit proof and over load proof Yes Short circuit current limitation Approx 1 A Derating None throughout the entire temp...

Page 206: ...Max 16 A characteristic B16 Switching rate Mechanical 10 Hz Electrical 10 Hz Ohmic load lamp load 10 Hz 2 Hz Inductive load 0 5 Hz 0 5 Hz ASi slave connection LOGO 24RLCB11 only ASi profile I O config ID code 7 F 7h Fh Number of virtual digital in puts 4 Number of virtual digital out puts 4 Power supply ASi power supply unit Power consumption Typically 30 mA Electrical isolation Yes Reverse polari...

Page 207: ... DC 0 1 1 2 W at 12 24 V DC Clock buffering at 25 C Typically 80 h Typically 80 h Accuracy of the real time clock Max 5 s a day Max 5 s a day Electrical isolation No No Reverse polarity protection Yes Yes Digital inputs Number 12 8 Electrical isolation No No Input voltage L Signal 0 4 V DC 5 V DC g Signal 1 8 V DC 8 V DC Input current at Signal 0 0 5 mA 1 5 mA 1 0 mA I1 I6 0 05 mA I7 I8 Signal 1 1...

Page 208: ...input Yes Yes Output voltage Output current Continuous current Ith per connector Max 10 A Max 10 A Incandescent lamp load 25 000 switching cycles at 1000 W 1000 W Fluorescent tubes with electr control gear 25 000 switch ing cycles 10 x 58 W 10 x 58 W Fluorescent tubes conven tionally compensated 25 000 switching cycles 1 x 58 W 1 x 58 W Fluorescent tubes uncom pensated 25 000 switching cycles 10 x...

Page 209: ...00A Power protection B16 600A Short circuit proof cos 0 5 to 0 7 Power protection B16 900A Power protection B16 900A Parallel switching of outputs to increase power Not permitted Not permitted Protection of output relay if desired Max 16 A characteristic B16 Max 16 A characteristic B16 Switching rate Mechanical 10 Hz 10 Hz Electrical Ohmic load lamp load 2 Hz 2 Hz Inductive load 0 5 Hz 0 5 Hz Tech...

Page 210: ...0 240 V AC Figure A Switching capacity and service life of the contacts at ohmic load heating Inductive load Switching cycles million Switched current A 0 1 0 2 0 3 0 4 0 5 3 2 1 0 6 0 7 0 8 0 9 1 0 Maximum 2 A Maximum 3 A Maximum 3 A 12 24 V AC DC 115 120 V AC 230 240 V AC Figure B Switching capacity and service life of the contacts at highly induc tive load to IEC 947 5 1 DC13 AC15 contactors so...

Page 211: ...s at 187 V AC Input current 0 3 0 18 A 0 73 0 43 A Making current 25 C 15 A 30 A Device protection Internal Recommended circuit breaker IEC 898 in mains in feed 6 A characteristic D 10 A characteristic C Output data Output voltage Overall tolerance Adjustment range Residual ripple 12 V DC 3 11 1 12 9 V DC 200 mVSS Output current Overcurrent limiting 1 9 A 2 4 A 4 5 A 4 5 A Efficiency 80 Parallel s...

Page 212: ...ication FM approval Yes Yes UL 508 CSA 22 2 In preparation General details Ambient temperature range 20 55 C natural convection Storage and transport tem perature 40 70 C Connections on input One connector 1x2 5mm2 o 2x 1 5 mm2 each for L1 and N Connections on output Two connectors 1x2 5mm2 o 2x 1 5 mm2 each for L and M Installation On 35 mm DIN rail snap on Dimensions in mm WxHxD 72 x 80 x 55 126...

Page 213: ...ms at 187 V AC Input current 0 48 0 3 A 0 85 0 5 A Making current 25 C 15 A 30 A Device protection Internal Recommended circuit breaker IEC 898 in mains in feed 6 A characteristic D 10 A characteristic C Output data Output voltage Overall tolerance Adjustment range Residual ripple 24 V DC 3 22 2 25 8 V DC 250 mVSS Output current Overcurrent limiting 1 3 A 1 6 A 2 5 A 2 8 A Efficiency 80 Parallel s...

Page 214: ...tion FM approval Yes Yes UL 508 CSA 22 2 Yes Class I Div 2 T4 General details Ambient temperature range 20 55 C natural convection Storage and transport tem perature 40 70 C Connections on input One connector 1x2 5mm2 o 2x 1 5 mm2 each for L1 and N Connections on output Two connectors 1x2 5mm2 o 2x 1 5 mm2 each for L and M Installation On 35 mm DIN rail snap on Dimensions in mm WxHxD 72 x 80 x 55 ...

Page 215: ...mic load at 55 C Operating current at 400 V Output of three phase loads at 400 V 85 264 V derating at 93 V 20 A 13 kW Utilization category AC 2 AC 3 Motors with slipring or squirrel cage rotor Operating current at 400 V Output of three phase loads at 400 V 85 264 V derating at 93 V 8 4 A 4 kW Short circuit protection Assignment type 1 Assignment type 2 25 A 10 A Connecting leads Finely stranded wi...

Page 216: ......

Page 217: ...LOGO If no more blocks from a list fit into LOGO you will not be able to select the list again If a memory area is occupied you have to optimize your circuit or use a second LOGO Determining the amount of memory required When you calculate the memory requirements of a circuit you must always include all the individual areas of the memory Example Q1 x I2 B01 B02 B03 x B04 0 0 0 0 6 0 0 2 No 1 No 2 ...

Page 218: ... B01 OR 0 0 0 0 1 B02 AND 0 0 0 0 1 B03 Time switch 6 2 0 0 1 B04 On delay 1 1 1 0 1 B05 Clock pulse generator 1 1 1 0 1 B06 AND 0 0 0 0 1 Resources occupied by the program 8 4 2 0 6 Memory limitations in LOGO 48 27 16 15 56 Still available in LOGO 40 23 14 15 50 The program therefore fits into LOGO Determining Memory Requirements ...

Page 219: ...s created in LOGO and produces a value during processing in parame terization mode from which the current cycle time can be calculated Test program 1 Create the test program by linking an output or marker to a threshold switch and by switching a clock pulse generator at its input which is switched on by a hi sig nal Hi Par Qx T B02 B01 Output Q or Memory marker M 2 Parameterize the two blocks as s...

Page 220: ...e of LOGO with the current program stored in the memory 1 fa cycle time in s Explanation The clock pulse generator T 0 changes its output signal every time the program is executed A level high or low thus lasts exactly one cycle A period therefore lasts 2 cycles The threshold switch indicates the ratio of periods per 2 seconds which results in the ratio of cycles per second Edge change of clock pu...

Page 221: ...NS I1 I2 I3 1 L N RUN STOP LOGO 230RC0 Output 4 x relay 10A Less is definitely more The advantages for you More cost efficient than with an operating unit Require less space in the cabinet than conventional hardware Considerably more flexible and less costly than sepa rate hardware units Advantageous for applications in which two or three conventional switching devices can be replaced Very easy to...

Page 222: ... LOGO RCo var iants for data transfer and similarly programs can t be stopped or started using keys LOGO RCo variants there fore have modified startup characteristics Startup characteristics If a LOGO program module card is inserted a program stored there will be copied to the device immediately after LOGO has been switched on thus overwriting an existing program If a PC cable is inserted LOGO aut...

Page 223: ...as Power On RUN and STOP are indicated by an LED on the front hood Red LED PowerOn STOP Green LED PowerOn RUN After the power supply has been switched on and when ever LOGO is not in RUN mode the red LED comes on When LOGO is in RUN mode the green LED comes on LOGO without a Display ...

Page 224: ...us Caution The ASi address can be changed 10 times for each LOGO LB11 variant Additional changes are not guaranteed To enable you to switch LOGO B11 to passive we have integrated a menu item in the programming menu Switching LOGO B11 between active and passive 1 Switch LOGO B11 to programming mode using the 3 finger grip and then press OK to get directly into the programming menu 2 Press the key t...

Page 225: ...e key and then OK The display indicates the new state LOGO Passive 5 As soon as the master has recognized an active slave and assigned it an address you can switch another slave back from passive to active Note You can only exit the menu for switching between active and passive if LOGO is switched to active LOGO B11 Active Passive Switchover ...

Page 226: ... times message texts n 0 5 Program PC Card Start ASi_Bus Set Clock Clear Prg Edit Prg Clear Prg No Yes Set Clock I 12345678 9 10 11 12 Q 12345678 We 08 44 ASi_Bus Ia 1234 Qa 1234 Bus Off We 08 31 MM DD YY 01 11 00 PC LOGO Stop Press ESC Q1 Card LOGO LOGO Card PC LOGO optional menus ...

Page 227: ...Co LOGO 24RCo LOGO 230RCo 6ED1 052 2MD00 0BA2 6ED1 052 2HB00 0BA2 6ED1 052 2FB00 0BA2 Analog input LOGO 12 24RC LOGO 24 6ED1 052 1MD00 0BA2 6ED1 052 1CC00 0BA2 Long LOGO 12RCL LOGO 24L LOGO 24RCL LOGO 230RCL 6ED1 053 1BB00 0BA2 6ED1 053 1CA00 0BA2 6ED1 053 1HB00 0BA2 6ED1 053 1FB00 0BA2 Bus LOGO 24RCLB11 LOGO 230RCLB11 6ED1 053 1HH00 0BA2 6ED1 053 1FH00 0BA2 Also with analog inputs ...

Page 228: ...dules Yellow card Red card 6ED1 056 1BA00 0AA0 6ED1 056 4BA00 0AA0 Switching module LOGO Contact 24 V LOGO Contact 230 V 6ED1 057 4CA00 0AA0 6ED1 057 4EA00 0AA0 Power modules LOGO Power 12V 1 9A LOGO Power 12V 4 5A LOGO Power 24V 1 3A LOGO Power 24V 2 5A 6EP1 321 1SH01 6EP1 322 1SH01 6EP1 331 1SH01 6EP1 332 1SH41 Others PC cable Manual 6ED1 057 1AA00 0BA0 6ED1 050 1AA00 0BE3 Order Numbers ...

Page 229: ... Count input for counter Co Connector Dir Direction e g for counter En Enable e g for switching on the clock pulse generator L LOGO device designation long variant No Cams time switch parameters o LOGO device designation without display Par Parameter R Reset R LOGO device designation relay outputs S Set e g setting the latching relay SF Special functions T Time parameter Trg Trigger parameter ...

Page 230: ...s 150 AS interface 3 ASi bus 21 master 21 system 21 ASi inputs 63 Asynchronous pulse generator 110 B Basic functions 65 AND 67 with edge 67 NAND 68 with edge 69 NOR 70 NOT 71 OR 69 XOR 71 BF 62 65 Block 30 deleting 55 interconnected blocks 56 inserting 50 number 30 assigning 31 BN 62 Bus connection cable 22 C CE marking 6 Certification 6 Checking 53 Circuit diagram 33 Circuit state change 15 Clock...

Page 231: ...ime 210 D Day of the week 96 Degree of protection 76 Demo versions 146 Device types LOGO 2 Diagram overview 32 Dimensions 10 DIN rail 10 Display 31 Display image 31 Displaying 53 drag and drop 146 Dual function switch 124 E Editing 50 Example automatic door 156 fluorescent luminaires 177 further applications 185 industrial gate 168 activation 172 surveillance 172 lighting hall 151 stairwell 151 ve...

Page 232: ...verter 71 L Latching relay 88 LCD 3 LED 214 Levels 64 Limitations 59 List BF 62 BN 62 Co 62 SF 62 Logic module 1 LOGO connecting to a PC 148 guidelines 8 installing 10 on the ASi bus 22 operating modes 26 recognizing 4 removing 10 structure of 3 switching on 24 variants 5 wiring 12 LOGO software 145 installation 147 LOGO s menu 38 LOGO Soft Comfort 146 M Markers 64 Memory area 59 requirements 208 ...

Page 233: ...tatus indicator 214 Operating hours counter 105 Operation 147 OR 69 OR not 70 Output connection 19 Outputs 63 P Par 59 Parameter displaying hiding 53 selecting 131 setting 129 T 74 Parameter assignment window 96 127 Parameterizing 52 Parameters changing 132 inputs 74 Passive 215 217 Passive active 215 PC cable 148 PC LOGO 148 PC LOGO mode 148 Planning 37 Power off 24 on 24 switch 24 Power supply c...

Page 234: ...tentive on delay 86 Retentivity 75 RLO edge detection 67 69 Rules 4 golden 36 RUN 46 S Sensor attributes 14 Setting 52 Setting the time 135 Seven day time switch 4 95 97 examples 98 setting 97 SF 62 77 Simulation 145 Size of a circuit 59 Slave 4 Special functions 77 analog comparator 118 clock pulse generator sym metrical 108 counter operating hours counter 105 up down 102 delay off 82 on 80 on of...

Page 235: ...over active passive 215 217 Symbols 4 Symmetrical clock pulse gene rator 108 T T See time Technical Specifications 188 Technical specifications general 188 LOGO 12 199 LOGO 230 190 LOGO 24 Basic 193 LOGO 24 Long 196 LOGO Contact 207 LOGO Power 12 V 203 LOGO Power 24 V 205 Terminal block 61 Time accuracy 75 Time error 75 Time response 74 Time switch 1 accuracy 75 Timer 59 Transistor outputs 20 Trig...

Page 236: ...227 LOGO Manual A5E00067781 01 W Warning duration 123 Warning time 123 Winter time 136 Wire end ferrules 12 Without display 212 X XOR 71 Z Zero point 76 Index ...

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