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Table of Contents
Related Manuals for microSYST miline S1X4
Summary of Contents for microSYST miline S1X4
- Page 1 S1X4 Line-oriented LED display User manual Page 1...
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Page 2: Table Of Contents
Contents 1 General information 1.1 Legal information ........1.2 Exclusion of liability . - Page 3 3.6.9 Profibus ........45 3.6.10 Profinet .
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Page 4: General Information
Should the content or the presentation of this documentation violate legal provisions or the rights of third parties, please contact us by mail (info@microsyst.de) without any additional costs. 1.2 Exclusion of liability Despite careful control we do not assume any liability or guarantee for the accuracy, completeness or topicality of the provided information. -
Page 5: Intended Use
Applications which have not been included (special applications) have to be discussed with our “Service and Support” (support@microsyst.de). As the devices have no power switch, they are immediately ready for operation after the operating voltage has been connected. When installing and operating the device, please ensure the compliance with all applicable national and international installation, accident prevention and safety regulations. -
Page 6: Installation
“used” and has been taken over “as tested” within the legal sense. Any warranty claims are then excluded. In addition to this, the current version of microSYST Systemelectronic’s general terms and conditions shall apply (https://www.microsyst.de/en/company/terms-and-conditions/terms-and- conditions.html). -
Page 7: Initial Operation
2 Initial operation 2.1 Connection cable 2.1.1 Grounding The metal housing complies with the protection class I, therefore the devices need a protective conductor terminal. The connection cable for the operating voltage must contain a protective conductor with sufficient cross-section. 2.1.2 Data / supply cable The devices comply with the current EU directive and are therefore interference-free. -
Page 8: Pin Assignment
2.2 Pin assignment 2.2.1 AD converter AD Converter 230V AC Power plug 230V AC Analog inputs M12 / S-Coding M12 / A-Coding Signal Signal Channel 1 + (voltage) Channel 1 - (voltage) Channel 2 + (voltage) Channel 2 - (voltage) Channel 3 + (current) Channel 3 - (current) Channel 4 + (current) -
Page 9: Clock
2.2.2 Clock Clock 230V AC Power plug 230V AC Digital IO M12 / S-Coding M12 / A-Coding Signal Signal IN 1 IN 2 IN 3 IN 4 OUT 1 OUT 2 Clock 24V DC Power plug 24V DC Digital IO M12 / T-Coding M12 / A-Coding Signal... -
Page 10: Ethernet
2.2.3 Ethernet Ethernet 230V AC Power plug 230V AC Ethernet M12 / S-Coding RJ45 Signal Signal Ethernet 24V DC Power plug 24V DC Ethernet M12 / T-Coding RJ45 Signal Signal n.c. +24 VDC Page 10... -
Page 11: Digital Inputs
2.2.4 Digital inputs Digital Inputs 230V AC Power plug 230V AC Digital inputs M12 / S-Coding M12 / A-Coding Signal Signal Input 1 / Input 8 Input 2 / Input 9 Input 3 / Input 10 Input 4 / Input 11 Input 5 / Input 12 Input 6 / Input 13 Input 7 / Input 14... -
Page 12: Pulse Counter
2.2.5 Pulse counter Impuls counter 230V AC Power plug 230V AC Impulse inputs M12 / S-Coding M12 / A-Coding Signal Signal Input 1 Input 2 n.c. n.c. n.c. n.c. Preset / Reset Impuls counter 24V DC Power plug 24V DC Impulse input M12 / T-Coding M12 / A-Coding... -
Page 13: Profibus
2.2.6 Profibus Profibus 230V AC Power plug 230V AC Profibus IN Profibus OUT M12 / S-Coding M12 Plug / B-Coding M12 Socket / B-Coding Signal Signal Signal +5 VDC +5 VDC Rx/Tx- (A) Rx/Tx- (A) Rx/Tx+ (B) Rx/Tx+ (B) Shield Shield Profibus 24V DC Power plug 24V DC... -
Page 14: Profinet
2.2.7 Profinet Profinet 230V AC Power plug 230V AC Profinet IN / OUT M12 / S-Coding M12 Socket / D-Coding Signal Signal Profinet 24V DC Power plug 24V DC Profinet IN / OUT M12 / T-Coding M12 Socket / D-Coding Signal Signal n.c. -
Page 15: Rs485
2.2.8 RS485 RS485 230V AC Power plug 230V AC RS485 IN RS485 OUT M12 / S-Coding M12 Plug / B-Coding M12 Socket / B-Coding Signal Signal Signal +5 VDC +5 VDC Rx/Tx- (A) Rx/Tx- (A) Rx/Tx+ (B) Rx/Tx+ (B) Shield Shield RS485 24V DC Power plug 24V DC... -
Page 16: Timer
2.2.9 Timer Timer 230V AC Power plug 230V AC Digital IO M12 / S-Coding M12 / A-Coding Signal Signal IN 1 IN 2 IN 3 IN 4 OUT 1 OUT 2 Timer 24V DC Power plug 24V DC Digital IO M12 / T-Coding M12 / A-Coding Signal... -
Page 17: Switching On / Switching Off The Device
2.3 Switching on / Switching off the device • The device is switched on after the supply voltage has been supplied. When starting the device the switch-on screen depends on the configuration of the device. • You can switch off the device if you disconnect it from the power supply. Page 17... -
Page 18: Configuration
3.3 General information The configuration of the visualisation as well as the used hardware components will solely be made via the MKS 2.x. The user interface of the microSYST configuration software consists of three parts: Project structure, Editor as well as Settings and properties. (Picture 1). -
Page 19: Project Structure And Layer View
Figure 1: MKS 2.x interface 3.3.1 Project structure and layer view The project structure can be seen in the upper left window of the user interface. There, the control board, additional boards, visualisation objects, elements of the editor as well as scripts and texts are accessible. -
Page 20: Saving A Project
• Ethernet: Enter the IP address and the port (picture 2). Should you not know the IP address, please click on searching device and a new dialogue will appear, which shows all accessible Ethernet participants. Figure 2: TCP/IP • Serial interface (e.g. RS485): Choose the COM port, baud rate and parity for the device (picture 3). -
Page 21: Configuration Of The Hardware Components
Please note that each device has a basic configuration. Do you want to change it afterwards, please use the MKS 2.x. For more information please follow the instructions of each component. Note: Please note that only the components used by microSYST can be configured. Components / additional boards The components / additional boards are forming the microSYST Peripheral Bus System (MPB) and can be combined or modified depending on cutomer’s requirements. -
Page 22: Control Board S1X4
3.6.1 Control board S1X4 The control board will be inserted automatically when creating a new project. By clicking on the control board in the project structure the Settings and Properties of this component will be displayed. Under Settings and Properties and General (picture 6) you can change a component’s name in the project. - Page 23 Figure 8: Tab internal sensor You can configure the Ethernet interface under Ethernet (picture 9). The default protocol is ASCII and will be described in this manual. Figure 9: Tab Ethernet The settings for the RS485 interface can be found under the tab RS485 (picture 10). The default protocol is ASCII and will be described in this manual.
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Page 24: Ad Converter
Figure 11: Tab Ext.2 The tab Display (picture 12) can be used to adjust the display specifications. Figure 12: tab display 3.6.2 AD converter The AD converter enables you to convert physical measuring units (length, mass, time) into digits. It has two channels for power and two channels for voltage. Important: Please note that each of the four channels has to be activated before usage, so it can supply a value. -
Page 25: Bcd / Io
Figure 13: tab Channel 1/Channel 2 3.6.2.2 Channel 3 / Channel 4 - power Enable / disable the channel under Use (picture 14). The accuracy of the AD converter can be determined with specifying the resolution and the average value under Accuracy. The resolution specifies the number of areas that are divided in sectors with a current ranging from -20 mA bis +20 mA. - Page 26 Figure 15: tab Function When enabled, the special characters extend the numerics by the following alphabectical char- acters (picture 16): H, E, L, P, (space), -. BCD parallel: You can select the number of decimal places from 1 to 4. BCD Multiplex: You can select the number of decimal places from 1 to 6.
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Page 27: Pulse Counter
3.6.4 Pulse counter Under operating mode you can select from the following options: • Pulse counter • Pulse interval • Impulses per time • Interval counter • Incremental Decoder • Incremental Decoder IDX Reset • Incremental Decoder Velocity In the following, the above mentioned operating modes will be explained in detail. Important: Please note that there are different inputs depending on the operating mode (4 inputs in total). - Page 28 3.6.4.1 Operating mode - Pulse counter The pulse counter counts pulses up and down at both inputs. Thereby the settings of input 2 can determine the counting direction of input 1 (picture 18). Under Options - min. / max. you can find several options concerning the settings of your counter when reaching the minimum / maximum value: •...
- Page 29 Figure 19: tab Inputs 3.6.4.2 Operating mode - Pulse interval In that mode the time between two edges is measured. Under Options - min. / max. (Abbildung 20) you can find several options concerning the settings of your counter when reaching the min. / max. value: •...
- Page 30 Figure 20: Pulse interval Figure 21: tab Inputs 3.6.4.3 Operating mode - Pulses per time It is possible to display the number of pulses per selected time unit (picture 22). Under Options - min. / max. you can find several options concerning the settings of your counter when reaching the min./max value: •...
- Page 31 A bit will be set in the status value after expiry of the adjusted signal timeout period. With each pulse the timeout counter will be set to 0. Under time unit you can determine the time frame in ms in which the incoming pulses will be counted.
- Page 32 • Ignore: Counter continues to count (32 bit) • Stop counter: The counter stops counting after reaching the min. / max. value • Counter overflow through zero: The counter restarts to count from zero after exceeding the min. / max. value •...
- Page 33 Figure 25: tab Inputs 3.6.4.5 Operating mode - Incremental Decoder Incremental (quadrature) decoder, 32 Bit quadrature register. Additionally, 32 bit counter register of the Dx signal (complete rotation) both upwards and downwards (picture 26). Figure 26: Incremental decoder Under inputs and Inc.Dec.input you can adjust the filter (picture 27). For each incremental input Dx, phA, phB you have the possibility to choose between 1 to 63 (6 bit).
- Page 34 Figure 27: Inputs incremental decoder 3.6.4.6 Operating mode - Incremental Decoder IDX Reset Incremental (quadrature) decoder, 16 Bit quadrature register. Additionally, 16 bit counter register of the Dx signal (complete rotation) both upwards and downwards (picture 28). The quadrature register will be deleted after each Dx pulse. So the quadrature register shows the position of the encoder in relation to Dx.
- Page 35 Figure 29: Inputs incremental decoder IDX Reset 3.6.4.7 Operating mode - Incremental Decoder velocity In that operating mode you can see the number of increments per selected time unit (picture 30). Depending on the direction of rotation they can be positive or negative. The average of up to 30 measured values can be calculated under Options.
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Page 36: Rs / Rtc
Figure 31: Inputs incremental decoder velocity 3.6.5 RS / RTC With the RS/RTC component you can receive telegrams and adjust it to deliver and to display the required values. Additionally, the exact time via Real Time Clock (RTC) can be displayed. Time out, baud rate and parity can be adjusted under the tab RS232 Settings respectively RS485 Settings (picture 32). - Page 37 Figure 33: tab RS485 settings Figure 34: tab RS485 - Telegram 3.6.5.1 Inserting a telegram part To insert a new telegram part, click on New. . . under the tab RS485 / RS232 Telegram (picture 34). A new dialogue appears (picture 35) where you can create a new telegram part. Now, you can define the name and the data type to be created.
- Page 38 Figure 35: New Telegram Part data types can be changed and adjusted in the detail view of each data type. By one click on the data type in the list the detail view appears on the right side (please see the following chapters detail view integer, detail view string, detail view dynamic).
- Page 39 Type You can choose between different types. The data type determines the number of the following bytes. Unsigned data types are marked with uintX and signed data types are marked with intX, the X shows the number of bits. Byte order As soon as the selection is bigger than 8 bits, the byte order option will be activated.
- Page 40 • String options Decimal: The ASCII character string may only contain the following characters: 0 1 2 3 4 5 6 7 8 9 Hexadecimal: The ASCII character string may only contain the following characters: 0 1 2 3 4 5 6 7 8 9 a b c d e f A B C D E F Alphabetical: The ASCII character string may only contain the following characters: A –...
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Page 41: Deleting A Telegram Part
Hexadecimal: The ASCII character string may only contain the following characters: 0 1 2 3 4 5 6 7 8 9 a b c d e f A B C D E F Alphabetical: The ASCII character string may only contain the following characters: A – Z, a - z Alphanumeric: The ASCII character string may only contain the following characters: A –... - Page 42 Figure 40: RTC tab Under settings you can select your preferred time zone as well as the display format from already pre-selected format strings or you can also enter formats which you require. Important: Please use the placeholders available in the formatting string under settings : Page 42...
- Page 43 Placeholder Description Short name of the weekday. Depending on the location Full name of the weekday. Depending on the location. Short name of the month. Depending on the location. Full name of the month. Depending on the location. The structure of date and time depends on the location. Indication of the century.
- Page 44 With special days (picture 41) you can determine specific days which are not standard (e.g. com- pany holidays, month-end, public holidays etc.) You can either indicate individual days or a specific period (from date_x to date_y) and enter an individual name. Please click on add in order to see this day or period in your list.
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Page 45: Sound Board
3.6.8 Sound board Under the tab MP3’s you can add your required songs with the button Add (picture 43). Figure 43: tab MP3’s Important: Please note that the memory of the sound board ist limited to 15,9 MB. It is useful to use only small MP3 files as the transfer will probably takes some time. - Page 46 Figure 45: tab Option Under the tab Data (picture 46) you can configure the received data and the data to be processed with the Profibus component. Under Length you can see the number of bytes of the added data part. The number of output bytes shows you how many bytes you have already assigned. Figure 46: tab data 3.6.9.1 Inserting a data part To insert a new data part, click on New.
- Page 47 • Integer: an integer value between 1 - 4 byte, can be unsigned or signed. • String: a string of characters which consists of a byte sequence which will be used in a different coding (e.g. UTF8, CP1252, etc..) It has a defined length. Confirm the selected data type with the button Create.
- Page 48 • Name: Name for the telegram part. • Number of characters: Number of characters in the string. 3.6.9.4 Deleting a data part If you want to delete an already existing data part in the data sheet, select the required data part and click on delete.
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Page 49: Profinet
In the line Ready to operate the maximum power consumption for the normal operating mode Ready-To-Operate will be entered. Important: These settings are device-specific and will normally be made by microSYST. The Profinet component provides the current PE mode. The reaction of the display to the different PE modes is made with scripting (e.g. - Page 50 Figure 52: Network view and hardware catalog 3. Drag MifacePnMpb-DAP3 into the network view (picture 53). Figure 53: Inserting MifacePnMpb-DAP3 4. Connect MifacePnMpb-DAP3 via PROFINET IO-System with the PLC (picture 54). First, please click on the green square of the MifacePnMpb-DAP3, drag with a pressed mouse Page 50...
- Page 51 (e.g. miface1). Figure 55: Assigning device name 5. Please set the desired update time (picture 56). Click on the microSYST symbol of the MifacePnMpb-DAP3 and select under the tab Properties the item General/PROFINET interface [X1]/Advanced options/Real time settings/IO cycle.
- Page 52 (=> leading to a lower network load). Figure 56: Setting update time 6. Please click on the microSYST symbol of the MifacePnMpb-DAP3 and check the Ethernet settings (picture 57). Under the tab properties please select General/PROFINET interface [X1]/Ethernet addresses.
- Page 53 Figure 57: Checking Ethernet settings Selecting and configuring IO module(s) Click on the tab Device view (picture 58) and extend the folder Module of the hardware catalog. Figure 58: Device view The type and number of the required IO modules depends on the data amount to be transferred cyclically.
- Page 54 The data order depends on the slot index starting from the lowest up to the highest index. Within an IO module the data is transferred consistently. Example: A maximum of 64 output bytes and a maximum of 64 input bytes have to be transferred cyclically between the PN controller (PLC) and the PN device (Miface PN MPB / display): 1.
- Page 55 3. Repeat this for the module 64 Byte In (picture 61) and set the I-address as required (first input-byte-address from which the data can be read by the PLC). Figure 61: Setting "64 Byte In" I-address Page 55...
- Page 56 1. Connect the device to be named with the profinet network and set up the power supply. 2. By a click with the right mouse button on the microSYST symbol (picture 63) you can open the context menu and select Assign device name.
- Page 57 Figure 63: Assigning device name 3. A new dialog window appears (picture 64). Please check the settings under Online access and device filter. Figure 64: Assigning dialog for device name Page 57...
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Page 58: Configuration Of The Visualisation
Software base: Siemens-PN-Stack (EK45) Profinet certificate "Device": Z12313 (PNO-Test-Report PN522-1, Siemens-COMDEC) Profinet certificate "PROFIenergy": Z40253 (PNO-Test-Report PE059-1, Siemens-COMDEC) GSDML-V2.35-microSYST-MifacePnMpb-20180816.xml 3.7 Configuration of the visualisation 3.7.1 Visualisation objects 3.7.1.1 General information You can display any information with different visualisation objects (e.g.texts, numbers, scrolling texts or simple basic forms such as rectangles, triangles, lines and circles etc. -
Page 59: Layer
In the editor you can group objects with the help of containers (folders and subfolders). With a right-click on editor objects in the project tree a context menu will be opened. In the menu under new container a new container will be created which can be moved / positioned by using the drag-and-drop function. -
Page 60: Creating Imgages
3.7.3 Creating imgages Please click on images (picture 67) under migra control board in the project structure in order to go to the image editor for the creation of simple drawings. With the button Add. . . you can upload externally created / existing images and change them according to your requirements. By clicking on New a new image with the name New image will be created. -
Page 61: Table Of Variables
Tool tips: • You can select the colour 1 by a left-click and colour 2 by a right-click under the tab colour selection. • With a left-click the colour under colour 1 and with a right-click the colour under colour 2 will be used when selecting the tools pencil and fill with colour. - Page 62 Value: Description of the variable Variable: Number in the table of variable Integer and string, each have their own numbering Type: Data type of the variable Note • Integer: a whole-numbered value between 1 - 4 bytes which can be unsigned or signed. •...
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Page 63: Telegrams
4 Telegrams 4.1 General information regarding telegrams Telegrams are used for the activation of the displays. The structure of these telegram is based on ASCII characters. The content to be displayed is a byte sequence, which can have another coding regarding the data type String (e.g. UTF8, CP1252, usw..). A distinction is made between a reading and writing access as well as between the type of data, integer or string. -
Page 64: Integer Telegrams
4.2 Integer telegrams 4.2.1 Reading integer values In order to read-out an integer value, please use following telegram (picture 70): Figure 70: Reading integer values The structure of the response telegram follows the general telegram structure (see chapter General information regarding telegrams) but always without any length information and without any bus address (picture 71): Figure 71: Response telegram Example: If we assume that the value 516 is in the integer variable 8. -
Page 65: Writing Integer Values
4.2.2 Writing integer values In order to write an integer value into the display, please use following telegram (picture 72): Figure 72: Writing integer values Examples Telegram Description Write with length specification. @12I4:1234, On the integer value 12 these telegrams write the value 1234 or -1234. @12I5:-1234, @6R12I4:1234, Example as befor but the RS485-address 6 will be used. -
Page 66: Incrementing / Decrementing Integer Values
4.2.3 Incrementing / decrementing integer values In order to increase (increment) or decrease (decrement) an integer value by one, please use following telegram (picture 73): Figure 73: Incrementing / decrementing integer values The integer value can also be modified by higher values (picture 74): Figure 74: Incrementing / decrementing integer values 2 Examples Telegram... -
Page 67: String Telegrams
4.3 String telegrams 4.3.1 Reading strings In order to be able to read-out a string, please use following telegram (picture 75): Figure 75: Reading strings The structure of the response telegram follows the general telegram structure (see chapter General information regarding telegrams). The length of the string will always be returned in the response (picture 76): Figure 76: Response telegram strings Example: If we assume that the string “Hello world”... -
Page 68: Writing Strings
4.3.2 Writing strings In order to write a string, please use following telegram (picture 77): Figure 77: Writing strings Examples Telegram Description This telegram writes on the string address 4 "Hello world" @4S11:Hello world, Example as before but the RS485-address 6 will be used @6R4S11:Hello world, Page 68... -
Page 69: Display Mode
4.4 Display mode In general, the display will be operated in standard mode. In order to check the display it has a display test. In that mode every basic colour and one pixel pattern will be displayed. Telegrams for changing the modes are described below. 4.4.1 Standard Please use following telegram in order to operate the display in standard mode (picture 78): Figure 78: Standard mode... -
Page 70: Technical Data
5 Technical data 5.1 miline with 64 x 16 (Pixel) Power Display Resolution in Dimension (width x Weight in Supply Power typical maximum Pixel height x depth) in mm Voltage in Watt in Watt 230V AC I8RGB 64 x 16 515 x 160 x 56 ca. -
Page 71: Miline With 128 X 16 (Pixel)
5.2 miline with 128 x 16 (Pixel) Power Power Display Resolution in Dimensions (widht x Weight Supply typical in maximum in Pixel height x depth) in mm in kg Voltage Watt Watt 230V AC I8RGB 128 x 16 1000 x 160 x 56 ca. -
Page 72: Wall Mounting
5.3 Wall mounting The dimensions of the wall mounting are as follows (picture ??): Figure 80: Dimension Page 72... -
Page 73: Chain Mounting
5.4 Chain mounting The dimensions of the chain mounting are as follows (picture ??): Figure 81: Dimension Page 73... -
Page 74: Problems And Solutions
Should you have any other problem which is not mentioned here, please do not hesitate to contact our Service & Support by mail support@microsyst.de or by phone +49 9681/91960-0. Please keep the article number and the serial number of the relevant device ready for any queries. - Page 75 Page 75...
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Page 76: Eu Declaration Of Conformity
Richtlinie +A12:2011 +A2:2013 Low Voltage Directive RoHS Richtlinie 2011/65/EU EN50581:2012 RoHS Directive Weiden, 19.03.2018 Manuel Raß Geschäftsführer / General Manager microSYST Systemelectronic GmbH, Am Gewerbepark 11, 92670 Windischeschenbach +49 9681 91960-0, +49 9681 91960-10, info@microsyst.de, www.microsyst.de Page 76... -
Page 77: Version History
8 Version history Date Creator Discription 13 Dec 2018 Document created, miline S1X4 Page 77...
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