Soft Comfort also allows you to configure up to 50 messages, e. The displayed alarms can be scrolled if there are several alarms and set to be confirmed by the user. It is also possible to change the color of the backlight from the program level to white, red and as it is declared by the producer … amber :.
The entire service of additional messages on the display takes place without special configuration or setting up a new project. We have all possible options in one window and I think that in the first use after just a few minutes everyone will be able to freely configure the screens in LOGO! In addition, the system menu has many useful options.
We are able to change the parameters of each function used in the program and even edit the program from the panel. There is also an option to secure parameter changes, which may be useful when we give the layout to the client and we do not want to have access to some functions.
This is not the only function of this port. The network can be expanded to 16 devices, these can be: LOGO! To expand the network we need to use Ethernet switches, e. CSM with four RJ45 sockets. The LOGO! Soft Comfort software has two editing modes of the schematic mode , i.
Thanks to this device, among other things, we can send orders for the LOGO! This module also has a GPS thanks to which we can remotely find out where the controller is located. This option will be used in objects that move. An additional option is the synchronization of the clock time of the controller, both GPS, cellular network and even the Internet.
Thank to this functionality, we are able to have access to all the functions of the controller and the TDE panel from the level of the web browser. Of course, both LOGO! This means that if we connect a WIFI router to the network, we will have access to the controller, e. The big advantage is also the way how the page is displayed in a web browser — everything is in responsive mode, so the view automatically adapts to the resolution of the device. In addition to remote access to LOGO!
In the above photo you can see the WebServer preview from the dedicated Smartphone application. TDE - Text Display. Design and functions. Design and functions LOGO! Text displays offer 10 menu languages and 6 integrated character sets. Supported languages for messages.
English, German, Italian, Spanish partly , Dutch partly. Technical data. Technical documentation Manuals, Operating instructions etc. Learn more. Spare Parts Services Siemens Industry's spare parts services are available worldwide and provide smooth and fast supply of spare parts — and thus optimal plant availability. Related Content. TIA Selection Tool - quick, easy, smart Loose powder is removed using targeted oscillation inside a sealed process chamber. Construction of certified water management solutions.
Centralized monitoring of thousands of installations. All data reliably reported, thanks to LOGO! CMR communication module. Automated buttered pretzel injector. Ten times faster than by hand. Centralized control and monitoring of all parameters in spas. Connection of all products purchased worldwide via the integrated web server. Networking of multiple devices via Ethernet, HMI panels as user interface.
Technical documentation Manuals, Operating instructions etc. Spare Parts Services Siemens Industry's spare parts services are available worldwide and provide smooth and fast supply of spare parts — and thus optimal plant availability. Related Content. TIA Selection Tool - quick, easy, smart Power LOGO! Please allow JavaScript This page requires JavaScript in order to be fully functional and displayed correctly.
How to enable JavaScript. Select your block off-delay, see the next figure , and then press OK: Press to move the cursor to Trg, and then press OK. Press or to select B1 and confirm with OK.
Note that you can only interconnect digital inputs with digital outputs or analog inputs with analog outputs. The off-delay block has two inputs and a parameter. At the top is the trigger input Trg you use to start the off-delay time.
In our example, the OR block B1 triggers the off-delay. You reset the time and the output with a signal at the reset input R. You set the off-delay time at parameter T of the Par.
Assigning block parameters Now you set the off-delay time T: 1. Move the cursor to Par: Press 2. Move the cursor to the time value: Press 2. Press and to position the cursor. Press and to modify the value at the relevant position.
Move the cursor to the first digit: Press 2. Select the digit "1": Press or 3. Shift the cursor to the second digit: Press 4. Select digit "2": Press or or or 5. Move the cursor to the unit: Press or 6. Select the timebase "m" for minutes : Press or 7. Select the protection mode: Press or The display should now show: 4. Select the retentivity setting: Press or The display now shows: 5.
Note For further information on the protection mode, refer to the topic "Parameter protection Page ". For further information on retentivity, refer to the topic "Retentivity Page ". You can modify the protection mode and retentivity setting only in programming mode. This is not possible in parameter assignment mode. You can once again view the circuit program on the display. Use the keys to browse the circuit program; that is, press or to move from block to block, and to move between the inputs at a block.
Closing the programming mode When you finish programming, you can exit the programming mode by following these steps: 1. Return to the programming menu: Press ESC 2. Return to the main menu: Press ESC 3. To delete this block, follow these steps: 1. Press OK in the circuit program window, and the cursor now appears as a solid square. Move the cursor to the Q1 block and then press OK. Move the cursor to B2, the input of Q1, and confirm with OK. Now replace block B2 with block B1 at output Q1.
To delete these two blocks from that program, follow these steps: 1. Providing that you are still in editing mode, you can revert one step by pressing ESC. If you have already configured all inputs, simply reconfigure the faulty input: 1. Move the cursor to the faulty position. Change to editing mode: Press OK. Enter the correct input circuit. You can only replace a block with a block that has exactly the same number of inputs.
However, you can delete the old block and then insert a new one. You can choose any new block. Move the cursor to "'AQ": Press or 4. When LOGO! Select the desired output setting: Press or.
Confirm your entry: Press OK. Defining a specific analog output value To output a specific analog value at the analog outputs, follow these steps: 1. Select a desired analog output and press OK. Enter a specific output value for the analog output.
To confirm your entry, press OK. To define the type of analog outputs, follow these steps starting from the programming menu: 1. Move the cursor to "AQ": Press or 4. Move the cursor to the desired AQ, and press OK. Select either Confirm your selection: Press OK. You can set a power-on delay for LOGO! To set the power-on delay, follow these steps: 1. Press or hold down to increase or decrease the delay time by 0.
You can also press and or to quickly increase or decrease the time. Confirm your setting: Press OK. Switch the LOGO! On the main menu, press programming menu. Note Summertime refers to "daylight saving time" and wintertime refers to "standard time" in the United States. What is shown on the display? Confirm with OK. The display shows: LOGO! Press or 2. The display shows: 3. Confirm all your entries with OK.
It does not function when the internal real—time clock of LOGO! When you enable synchronization, LOGO! Base Module with digital or analog expansion modules, but without a communications module, you must not activate time synchronization. You must check whether time synchronization is disabled. After you have configured them in LOGO!
You can not edit any of the rest of the circuit program from the device. You can configure the LOGO! From LOGO! With the access level of operator, you can only view but cannot change the network settings. Configuring the network settings LOGO! To change the setting, press OK. When the cursor appears in a flashing solid square, press or to move the cursor to a position where you want to modify the number, then press or to increase or decrease the number.
To confirm your change, press OK. To view your last settings, press to move the cursor to the " " symbol, and then press OK to open a drop-down list, for example: You can press or OK to comfirm. Press or to move to the subnet mask setting. The default subnet mask is as shown above. Press to move to the gateway address setting.
The default gateway is as shown above. Transferring the circuit program to LOGO! For further information on uploading the circuit program to LOGO! You can add it to an existing circuit program as you do with a function block. If your circuit program in LOGO! The Data Log is used to record process measurement variables of the selected function blocks. Network digital or analog inputs can connect with the inputs of function blocks.
Network digital or analog outputs can connect with the outputs of function blocks. Viewing network connectors in LOGO! Consider a circuit program where a network digital input NI1 connects to the function block B5. B5 is connected to Q4. To view this network input, follow these steps: 1. Move the cursor to the B5 block and then press OK. The following views are examples of network digital and analog outputs in LOGO! This section shows you how to change LOGO! This LOGO!
A master LOGO! This helps LOGO! It also supports a maximum of 24 digital inputs, 8 analog inputs, 20 digital outputs and 8 analog outputs.
Changing LOGO! When the cursor appears in a flashing solid square, press or to move the cursor through the numbers. Press or to change the number. Stepping into the following view, you can see that your LOGO! You cannot change LOGO! Alternatively, you can change LOGO! If you download a circuit program to a LOGO! You can perform the following actions from LOGO! To view the software status and errors, follow these steps: 1. Viewing the hardware status and errors of LOGO! To view the hardware status and errors, follow these steps: 1.
Viewing error information To view the errors detected, follow these steps: 1. You can press view each error record. Press OK to confirm your input. To view your last inputs, press to move the cursor to the " " symbol, and then press OK to open a drop-down list, for example: You can press or OK to comfirm. The circle with a dot indicates the current setting. To change the setting: Press or 4. If you enable the error alert, when an error occurs, the LOGO! You can go to the diagnostics menu to view and clear the error.
You can determine the total number of bytes used by adding up the number of bytes used for the relevant function blocks. Blocks with optional retentivity use this memory area only if you have enabled the retentivity function.
Resources available in LOGO! A circuit program in LOGO! Memory requirements The table below shows an overview of the memory requirements for the basic and special function blocks in LOGO! Utilization of memory areas LOGO!
If LOGO! If memory space is full, optimize your circuit program or install another LOGO!. Calculating memory requirements When calculating the memory requirements of a circuit, you must always take into account all individual areas of memory. Example: The sample circuit program contains: Block no. This means that this circuit program fits in LOGO!. Usually, this includes all connectors, basic functions, and special functions. This occurs wthen the memory space is insufficient or when you have reached the maximum number of blocks.
The number of the digital inputs I1, I2, Base Module and of the connected digital modules, in the order of their installation. Besides, when the LOGO! Base Module is in slave mode, a 5 ms on-delay time and a ms signal-retentive-time are defined for all the digital inputs.
Page ", you can configure these modules to use either two analog inputs AI1 and AI2 , or all four. See topic "Maximum setup with expansion modules Page 29 " for example setups. In programming mode, when you select the input signal of a special function that takes an analog input, LOGO!
The output numbers Q1, Q2, Q20 correspond with the numbers of the output connectors at the LOGO! Base Module and with those of the expansion modules, in their order of installation. You cannot reuse the blank outputs in a circuit program. The blank outputs differ from flags, for example, which you can reuse. A blank output, for example, is useful for the special function "Message texts" Page , if only the message text is of significance to a circuit program.
Eight analog outputs are available, namely AQ1, AQ2, You can only connect an analog output with the analog input of a function, an analog flag AM or an analog output connector. The following figure shows an example LOGO! For more information on how to view the trend curve, refer to "Viewing the analog changes Page 78 ". Flag blocks The letters M or AM identify flag blocks. These are virtual outputs, which output the value of their inputs.
You can thus use it as a startup flag in your circuit program. You can use the M8 flag in all further cycles for setting, deletion and evaluation procedures in the same way as other flags. TDE has a diagnostics error. TDE is 20, hours. State 0 corresponds to Character Set 1, and state 1 corresponds to Character Set 2. If you do not include M27 in the circuit program, message texts display in the character set that you selected from either LOGO!
This value does not change within the same program cycle. If you have not added any special flags in the diagram, but written them from the network, they can still work except M So if you want to control character sets by M27, you must add it in the diagram first, and you can connect M27 to NI blocks to control it from the network. Only the "Shift register" Page special function can modify shift register bit values.
Cursor keys are programmed for the circuit program in the same way as other inputs. Cursor keys can save switches and inputs, and allow operator control of the circuit program.
Cursor key inputs from the LOGO! You program these keys in the same way as other inputs. Like the cursor keys, you can press these keys when LOGO! Levels Voltage levels are designated hi and lo. Open connectors LOGO! If the circuit program in LOGO!
To edit the rest of the program, you must upload the program to LOGO! You can invert the inputs of individual basic functions, that is, the circuit program inverts a logical "1" at a relevant input to a logical "0"; if "0" is the value at the input, the program sets a logical "1". See the programming example at Circuit program input Page The GF list contains the basic function blocks you can use for your circuit program.
NAND function logic table 4. Timing diagram for the NAND with edge evaluation 4. The NOR output is set to 0 when one of the inputs is on logical 1 status. XOR function logic table 4. The NOT block inverts the input status.
An advantage of the NOT block, for example, is that you do not have to use break contacts. You simply use a make contact and the NOT block to convert these into a break contact.
Special functions SFs contain timer functions, retentive functions and various parameter assignment options, which allow you to adapt the circuit program to suit your own requirements. This section provides you with a brief overview of input designations and with some particular background information on SFs Page When this input is "0", the block ignores all other signals.
Note Unused logical inputs of special functions default to logical "0". That is, the input carries a "lo" signal. Parameter inputs At some of the inputs you do not apply any signals.
You configure the relevant block values instead. Here, you define priorities and specify whether a message is to be acknowledged in RUN. Accuracy of T Because of slight tolerances in the characteristics of electronic components, the set time T can deviate. You can find a detailed description of such deviations in the "On-delay" topic Page The surrounding temperature influences the backup time. If there is a power outage of a LOGO! This means that LOGO! The timer is not reset, but resumes operation until the time-to-go has expired.
To enable this response, however, the relevant functions must be set retentive. Two options are available: R: The data is retentive. See the section in topic "Second circuit program Page 82 " on enabling and disabling retentivity. The hours counter, weekly timer, yearly timer and PI controller are always retentive. See the parameter protection mode example in the Second circuit program Page Note Parameter protection covers only the "Set Parameter" window. If you embed variables of protected special functions in a message text, the variables are still editable from the message text.
To protect these variables, you must also activate the protection of the message text. This value of signal lies within the typical range of this sensor. Because you cannot always process the range of values from 0 to as predetermined by LOGO! This allows you to output an analog value to the LOGO! For further information on analog inputs, refer to the Constants and connectors Page topic.
You can invert the inputs of SFs individually, that is, the circuit program converts a logical "1" at the input into a logical "0"; a logical "0" it converts into a logical "1". See the programming example in topic "Circuit program input Page 69 ". The table also specifies whether the relevant function can be set retentive Rem. Symbol in LOGO! Parameter T represents the time after which the output is on 0 to 1 transition of the output signal.
Output Q Q is on when the set time T expires, provided Trg is still set. The actual value of another already-configured functions can provide the time for parameter T. The timebase is configurable. Timebase max. Press to move the cursor to the equal sign of parameter T. Press to change the equal sign into an arrow. Press to move the cursor to the "B" of the shown block, and then press required block number. Press to move the cursor to the block's timebase and press timebase.
If the block is retentive, LOGO! Parameter The output switches off transitions from1 to 0 when the delay time T expires. Output Q A signal at input Trg sets Q. Q holds this state until T expires. For information on valid timebase ranges and parameter preset, refer to Section "On-delay Page ". The output remains set. You can set input R Reset to reset the time Ta and the output before Ta expires.
A negative edge 1 to 0 transition at input Trg Trigger triggers the off-delay time TL. Parameter TH is the time after which the output is set hi output signal transition 0 to 1. TL is the time after which the output is reset output signal transition 1 to 0. The actual value of another, already-configured function can provide the on-delay and offdelay times for parameters TH and TL. Timing diagram Functional description The time TH is triggered with a 0 to 1 transition at input Trg.
A 1 to 0 transition at input Trg triggers the time TL. The output is set when this time has expired. Input R A signal at input R resets the on-delay time and the output. Parameter T represents the on-delay time for the output output status transition 0 to 1. Parameter T Note the defaults specified in topic Time response Page The actual value of another already-programmed function can provide the time for parameter T.
For information on valid ranges and parameter defaults, refer to Section "On-delay Page ". Timing diagram Functional description The 0 to 1 signal transition at input Trg triggers the current time Ta. A further signal at input Trg does not influence the time Ta.
Parameter The output is switched off after the time T has expired output signal transition 1 to 0. Timing diagram Functional description A 0 to 1 transition at input Trg sets the output, and triggers a time Ta during which the output remains set. Input R A signal at input R resets the current time Ta and the output.
0コメント