1.2 About WAGO TOPLON® PRIO
Contents
1. maco WAGO TOPLON PRIO Configuration 79 Software Configuration Standard user level o 10 Configuration Subsystem_1 Diag a Column header here to group bs that column aoNo Name Connectedto Element Scale Di Apply Refresh Memory Usage e Column 1 AO No In the AO No column all analog outputs available to you in your network node are listed numbered The number of analog outputs depends on the hardware configuration defined beforehand No settings are possible in this column e Column 2 Name The desired name for each analog output can be entered in this column e Column 3 Connected to In this column you can connect a desired network input variable to each analog output for the communication via the network For this purpose all NVIs available to you on the basis of your device template selection are listed in a selection menu The attendant SNVT for each NVI is indicated in brackets No default NVI is entered Note gt You can define the SNVTs for the network input variables in the settings of the NVIs column Type e Column 4 Element In this column you can connect to the corresponding analog output a specific element of the SNVT of the selected NVI For this purpose all elements of the connected SNVT are available in the automatically polled SNVT details window No d2. increments SNVT_mass_kilo 0 6 553 5 kg 0 1 kg 24 Mass in 100 gram increments SNVT_mass mega 0 6 553 5 metric tons 25 Mass in 100 kg 0 1 tonne increments SNVT_mass_mil 0 6 553 5 milligrams 26 Mass in 0 1 mg 100 microgram increments SNVT_power_kilo 0 6 553 5 kW 0 1 kW 28 Power in 100 Watt increments SNVT_power 0 6 553 5 Watt 0 1 W 27 Power in 100 mW increments SNVT_multiplier 0 32 765 0 0005 82 Multiplier in 0 0005 increments SNVT_res 0 6 553 5 Q 0 1 Q 31 Resistance in 100 mQ increments SNVT_res_kilo 0 6 553 5 kOhm 0 1 32 Resistance in 100 Q kOhm increments SNVT_speed 0 6 553 5 meters sec 34 Speed in 0 1 m s 10 cm s increments SNVT_speed_mil 0 65 535 m s 0 001 35 Speed in m s mm s increments SNVT_time_sec 0 0 6553 4 sec 0 1 sec 107 Time in 100 mS increments SNVT_vol 0 6 553 5 liters 0 1 1 41 Volume in 100 milliliter increments SNVT_vol kilo 0 6 553 5 kiloliters 0 1 42 Volume in 100 liter kl increments SNVT_vol_mil 0 6 553 5 milliliters 0 1 43 Volume in ml 100 milliliter increments WAGO TOPLON PRIO 140 SNVT Details The most important SNVTs 8 3 1 5 Simple linear SNVT with stretch factor with a number range of 32768 32767 SNVT_amp 3 276 8 3 276 7 amps 1 2 Current in 100 mA 0 1 A increments SNVT_amp_mil 3 276 8 3 276 7 mA 2 2 Current in milliamp 0 1 mA increments SNVT_angle_vel 3 27
3. SNVT_hvac_ status Byte 0 112 12 HVAC status SNVT_hvac_mode information Byte 1 2 Indication in SNVT_lev_percent 0 percent of Byte 3 4 SNVT_lev_percent 1 0 Primary heat Byte 5 6 of heater SNVT_lev_percent 2 1 Secondary Byte 7 8 heat of heater SNVT_lev pereen 3 2 Cooling Byte 9 10 capacity SNVT_lev_percent 4 Byte 11 in_alarm 3 ECO power 4 Ventilation power in_alarm 0 or 1 1 in alarm SNVT_temp setpt Byte 0 1 106 12 All values as in use cooling SNVT_temp_p Byte 2 3 0x7fff NUL standby cooling Byte 4 5 free cooling Byte 6 7 in use heating Byte 8 9 standby heating Byte 10 11 free heating SNVT_therm_mode enum 119 1 Thermostat mode 0 disabled 1 Read in Read out mode 2 modulated Oxff NUL SNVT_defr_mode enum 120 1 Defroster mode 0 no forced heating 1 forced heating at temperatures below zero 2 synchronized Oxff NUL SNVT_defr_state enum 122 1 Defroster status 0 standby 1 pump off 2 defroster on 3 no drain WABE WAGO TOPLON PRIO SNVT Details 145 The most important SNVTs 4 injector delay Oxff NUL SNVT_defr_term enum 121 1 Completion of the defroster function 0 completion acc to temperature l completion acc to time 2 completion acc to temperature or time 3 completion acc to temperature and time SNVT_lev_cont 0 100 0 5
4. 8 3 1 4 Simple linear SNVT with stretch factor with a number range of 0 65535 maco SNVT_angle 0 65 535 Rad 0 001 3 Angle indication in Rad 1 1000 radian SNVT_area 0 13 1068 m 200 m 110 Surface in 200 m increments SNVT_density 0 32 767 5 kg m 100 Density in 0 5 kg m 0 5 kg m increments SNVT_elec_whr 0 6 553 5 watt hours 14 Electrical energy in 0 1 Wh 100 mWh increments SNVT_flow 0 65 534 liters sec 15 Flow in liters second 1 I sec SNVT_flow_mil 0 65 535 mililiters sec 16 Flow in 1 ml sec milliliters second SNVT_freq_hz 0 6553 5 Hz 0 1 Hz 76 Frequency in 100 mHz increments SNVT_freq_kilohz 0 6553 5 kHz 0 1 kHz 77 Frequency in 100 Hz increments SNVT_freq_milhz 0 6 5535 Hz 0 0001 78 Frequency in Hz 100 micro Hertz increments SNVT_grammage 0 6 553 5 gsm 0 1 gsm 71 American unit for paper weights density SNVT_length 0 6 553 5 meters 0 1 m 17 Length in 10 cm increments SNVT_length kilo 0 6 533 5 km 0 1 km 18 Length in kilometer increments SNVT_length_micr 0 6 553 5 um 0 1 um 19 Length in 100 nanometer increments SNVT_length_mil 0 6 533 5 mm 0 1 mm 20 Length in 100 micrometer increments SNVT_mass 0 6 553 5 grams 0 1 g 23 Mass in 100 milligram WAGO TOPLON PRIO SNVT Details e The most important SNVTs 139
5. lt lt lt lt lt i lt lt C W SwVersion n a Preece pads toe ocmenes e Buyer Coupler ID 750 81 9 IF inmware C165 n a The node info window for a fieldbus controller has further information on e SYM file identification SYM project id 05205085 The information in the node info window are not changeable Only exception is the information LocalID This is an identification for the local where your node is You can enter a local identification e g Ground with maximally 6 indications The assignment of individual addresses facilitates the allocation of your nodes and thus also the analysis of your network Click on the HEX button Hex then the local info is shown as hexadecimal value Simultaneous now on the button appears ASCH Click once more on this button then the local info is shown as ASCH value Now on the button appears HEX again 5 3 2 1 How to name your own location info 1 Select and delete the default location info in the input window 2 Enter the desired location info Note The length of the location info is limited to a maximum of 6 characters 3 Click on the Apply value LJ symbol maco WAGO TOPLON PRIO 120 Information Diagnosis possibilities 5 3 3 Information on network variables maco If the NVIs or NVOs group is selected you obtain a fourth button in the right hand bar of the operating surface for your softwa
6. Click on the SNVT or to a desired element of the SNVT in the displayed directory tree structure then click on the OK button The window Scaling the analog values opens in which you can define the bottom and top limit of the other output variables and of the network variables Enter the desired limit values and click on the OK button The window is closed and your settings displayed in the table To change individual settings click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button A window opens for you to make your desired setting Can only be set in the Expert user level a To activate the Use TimeOut function click on the corres ponding control box in the Use TimeOut column to set a tick The window Default value for TimeOut opens b Enter the desired default value and click on the OK button The window closes and your settings are entered in the table c To change the default value setting click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button The Default value for TimeOut opens for you to make the desired change d To enter a desired default behavior for the connected SVNT element click on the corresponding cell in the Default behavior column A small button appears on the right hand side of the table cell Click o
7. 8 3 1 13 ASCII and Arrays SNVT_char_ascii 0 255 7 1 Characters in ASCH format SNVT_str_asc Byte 0 30 Char 36 31 Array of 31 ASCII Byte 31 NUL Terminator characters SNVT_str_int Byte 0 29 Word 37 31 Array of 15 words Byte 30 NUL Terminator WAGO TOPLON PRIO wWAco 154 e Glossary The most important SNVTs 9 Glossary Bindable NVs Network variables of a node which can be linked with the network variables of other nodes in the network for data exchange purposes Bus module Process data are put in and out at the bus modules Bus modules are available for the most varied applications to meet the various requirements There are digital and analog input and output modules and different special modules Bus module configuration Refer to bus module constellation Bus module constellation Composition and sequence of I O bus modules in the hardware Bus coupler Abridged form for fieldbus coupler Closed Loop Sensor Object A Closed Loop Sensor Object contains feedback network variables Also refer to Open Loop Sensor Object Configuration properties CPs The configuration properties are derived from the most different configuration data for the function of a network node The data can be sent to the node via network variables via direct network management commands or via a file transfer mechanism Controller Refer to head end also refer to WAGO I O PRO Controller
8. 3 increase setting by a specified value 4 stop performance 5 set specified value Oxff NUL Value 0 255 Transition number 0 65535 SNVT_ state Byte 0 Bitmap bit0 bit7 Byte 1 Bitmap bit8 bit15 Status information as Bitmap Byte 0 MSB bit0 64 bitl 32 bit2 16 bit3 8 bit4 4 bit5 WAGO TOPLON PRIO WAGO 150 e SNVT Details The most important SNVTs 2 bit6 LSB bit7 Byte 1 MSB bit8 64 bit9 32 bitlO 16 bitll 8 bitl2 4 bitl3 2 bitl4 LSB bit15 0 off inactive disabled low FALSE normal 1 on active enabled high TRUE alarm SNVT_ switch Byte 0 Value 95 2 Value Byte 1 Status 0 200 in 0 5 increments 200 100 Status 0 OFF 1 ON SNVT_telcom enum 38 1 Telephone status 0 no offering U0 1 removed U1 2 dialing U2 3 calling U3 4 calling tone U4 5 call has come in U6 6 bell alarms call U7 7 user has picked up U8 8 connection U9 9 speech connection active U10 10 user hooked on U11 11 calling subcriber hooked on U12 12 hold U15 13 re activate U16 14 line enable Py ele WAGO TOPLON PRIO SNVT Details e The most important SNVTs 151 U19 15 ready for second call U25 16 connected and blocked 17 waiting for call 18
9. K cof F RET TA f ra In the graphic analog input and output modules are marked with color markers in line with the WAGO group marker carriers The exact bus module type of the digital bus modules is not recognized The coupler controller only differentiates between input and output modules and whether or not a bus module with 2 or 4 channels is concerned Therefore all digital modules are displayed in color in the graphic i e digital input modules in yellow digital output modules in red You can gather from the number of LEDs represented in the graphic whether a 2 or a 4 channel bus module is concerned Bus module types that are not recognized by TOPLON PRIO are displayed in gray Internal system supply modules are not automatically recognized To ensure that the graphic representation actually coincides with your existing LON node you can following the automatic hardware configuration manually specify the bus modules more specifically and also insert internal system supply modules into the graphic representation Following the specification the digital bus modules in the graphic are also marked with color markers in line with the WAGO group marker carriers Note gt A specification of the digital bus modules as well as the insertion of supply modules in the graphic does not influence the function of the coupler controller WAGO TOPLON PRIO wWAGO 42 Configuration Hardware Configuration 4 2 2 1 How
10. The process image of the DOs can be represented in the network via the collective variable nvo_do_outpa For the fieldbus coupler 750 319 the variable type UVNT_dio is structured analog zu SNVT_ state and consists of a bit field having 31 bytes In this manner a total of 248 bits are available to achieve the maximum presentation of 248 digital output data The output data to the bit field of 31 bytes is automatically assigned This NV is irrelevant for the fieldbus controller 750 819 nvi i inpa DOs or output variables can be set via this collective variable nvi i inpa For the fieldbus coupler 750 319 the variable of type UVNT_dio is structured analog to SNVT_state and consists of a bit field having 31 bytes In this manner a total of 248 bits are available to realize the setting of maximum 248 digital output data The output data of the bit field of 31 bytes is automatically assigned This NV represents the first 31 bytes in the input area of the DP RAM for the fieldbus controller 750 819 With it the process image of the max 31 bytes output variables Bool OUTs and or Var OUTs can be represented independent of the variable type or size The output data of the bit field of 31 bytes in the input area to the outputs is automatically assigned Two NVs nviSend and nvoReceive are used in the controller object to download an IEC 61131 application The configuration variable nci pfc with the type UCPT_iec in the controller object is used
11. W lbs x F 4 184 Joule SNVT_count_f 01E38 1E38 counts 51 4 Counter reading with ANSI IEEE 754 float positive numbers in the floating point format SNVT_count_inc_f 1E38 1E38 counts 52 4 Counter reading with ANSI IEEE 754 float positive and negative numbers in the floating point format SNVT_density f 0 1E38 kg m 101 4 Density in kg m ANSI IEEE 754 float SNVT_elec_whr f 0 1E38 Wh 68 4 Electrical energy in Watt ANSI IEEE 754 float hours SNVT_flow_f 1E38 1E38 I sec 53 4 Flow in liters sec ANSI IEEE 754 float SNVT_freq f 1E38 1E38 Hertz 75 4 Frequency in Hertz ANSI IEEE 754 float WAGO TOPLON PRIO SNVT Details e The most important SNVTs SNVT_grammage_ 1E38 1E38 gsm 72 4 American unit for paper if ANSI IEEE 754 float weights density SNVT_length f 1E38 E38 meters 54 4 Length in meters ANSI IEEE 754 float SNVT_lev_cont_f 0 100 55 continuous value in ANSI IEEE 754 float SNVT_mass f 0 1E38 g 56 4 Mass in grams ANSI IEEE 754 float SNVT_power_f 01E38 1E38 Watt 57 4 Power in Watt ANSI IEEE 754 float SNVT_ppm _f 0 LE38ppm 58 4 Portion in per thousand ANSI IEEE 754 float SNVT_press_f 0 1E38 pascals 59 4 Pressure in Pascal ANSI IEEE 754 float SNVT_pwr_fact_f 1 0 1 0 99 4 Power factor ANSI IEEE 754 float SNVT_res f 1E38 1E38 Q 60 4 Resistance in Q A
12. WAGO TOPLON PRIO User Manual Description of function installation and operation 759 123 000 001 Section 5 Version 1 2 1 E CONNECTIONS E ii e General Copyright 2003 by WAGO Kontakttechnik GmbH All rights reserved WAGO Kontakttechnik GmbH HansastraBe 27 D 32423 Minden Phone 49 0 571 8 87 0 Fax 49 0 571 8 87 1 69 E Mail info wago com Web http www wago com Technical support Phone 49 0 571 8 87 5 55 Fax 49 0 571 8 87 85 55 E Mail support wago com Information on TOPLON Phone 49 0 571 8 87 0 Fax 49 0 571 8 87 8 528 E Mail toplon wago com Web http www wagotoplon com Every conceivable measure has been taken to ensure the correctness and completeness of this documentation However as errors can never be fully excluded we would appreciate any information or ideas at any time E Mail documentation wago com We wish to point out that the software and hardware terms as well as the trademarks of companies used and or mentioned in the present manual are generally trademark or patent protected WAGO WAGO TOPLON PRIO Table of Contents e iii Table of Contents 1 REviCW cies sasiaeccancaqessecccns caus testensncuatsccsansatcsnnes nctustsnanncnusedesvessansseyeiiseceeieness 5 1 1 Information on this manual wsvicusacenscsscvsradsexiwnadaevondeesbenexeseewoesussesctiens 5 1 1 1 Deviations from this manual ccccccceesceessee
13. WAGO TOPLON PRIO wWAGO 118 e Diagnosis possibilities Information 5 3 Information 5 3 1 Information on TOPLON PRIO You can poll the info window containing information on TOPLON PRIO via the Info menu It contains information on e Version number e Copyright o Info Subsystem_1 xi WAGO INNOVATIVE CONNECTIONS 1 00 0019 This plug in is as configuration tool for a TOPLON PRIO Waring This computer program is protected by copyright law and international treaties Unauthorized reproduction or distribution of this program or any portion of it may result in severe civil and criminal penalties and will be prosecuted to the maximum extent possible under the law 5 3 2 Information on the node maco Depending on the head end of your fieldbus node different node info windows are displayed You can poll the node info window via the View Node menu For the coupler and the controller the node info window has information to your current node e Name ofthe node e NeuronID of the bus coupler e Software version number e Location information and or LocationID of the bus coupler in HEX or ASCII Project name WAGO TOPLON PRIO Diagnosis possibilities 119 Information e System name e Item No of the head station for coupler 750 319 for controller 750 819 e Firmware of the C165 processor n a means not available E al E NeuonID foooooooo00000
14. e On the left hand side of the status bar you can follow the actions currently performed Their sequence is displayed by means of a blue bar Red flashing in the status bar indicates an error occurred Once the error is corrected the red flashing stops e In the middle of the status bar an error log allows you to analyze errors occurred in the bus coupler You can poll this log until the node is de activated In addition you can have the log window displayed larger For this purpose click on log To reduce the view again click outside of the log window 16 02 32 Start The following information is entered in the log e Start time of the Plug In e Error occurrence time e Type of error e Error correction time WAGO TOPLON PRIO maco 116 e Diagnosis possibilities Browser 5 2 Browser maco Your node uses network variables to communicate via the net The browser is used to have the settings and the current values of this network variable displayed You can monitor the network variables using the browser online and additionally connect values to these variables This offers you the possibility to change network input variables values by way of remote data transmission and to create a remote diagnosis of your network by online monitoring Poll the browser in the View Browser menu or by means of the symbol bar symbol Browser 4 Prerequisite a physically connected fieldbus node 2 NV B
15. 21 1 continuous value in 0 5 increments SNVT_lev_disc enum 22 1 discreet value 0 OFF 1 LOW J MEDIUM 3 HIGH 4 ON Oxff NUL SNVT_magcard Byte 0 86 20 digitl Start code digitl digit2 always 0x0b a digit2 40 Byte 19 Magn track data digit39 digit40 aa digit2 End code 0x0f equal to NUL SNVT_ISO 7811 replaced by 80 20 replaced by SNVT_magcard SNVT_magcard SNVT_muldiv Byte 0 1 Multiplier 91 4 Multiplier amplification Byte 1 2 Divisor factor 0 65335 Divisor Damping factor 1 65335 WAGO TOPLON PRIO 146 SNVT Details The most important SNVTs 8 3 1 11 maco Node Object SNVT_config_sre SNVT_obj_request Enum Byte 0 1 Object identification number Byte 3 Request 69 92 0 CFG_LOCAL self installed 1 CFG_EXTERNAL Tool installed Oxff NUL Object identification 0 65535 node related Request 0 activate object de activate over range 1 deactivate object 2 signal object status 3 perform self test 4 activate alarm status 5 signal status bit mask 6 object over range 7 activate object 8 de activate over range 9 reset object status 10 delete alarm status 11 activate alarm message 12 de activate alarm message 13 manual control mode 14 remote control mode 15 permit special configuration Oxff NUL SNVT_obj_status Byte 0 1 Object
16. 31 Bytes 36 nyi04 SNV stint 31 Bytes 37 Apply nvi05 SNVT_strasc 31 Bytes 36 nvil6 SNVT_st_asc 31 Bytes 36 nvil SNVT_strasc 31 Bytes 36 Refresh invita TSNVT_st_asc 31 Bytes 38 vil SNVT_stase 31 Bytes 36 A ao of wui om 4 nvitd SAVT stase 31 Byles 36 J Dan nvi11 SNVT_strasc 31 Bytes 36 1 nvil2 SNVT_st_asc 31 Bytes 36 invil3 SNVT_strasc 31 Bytes 36 Tavita SNVT_st_ase 31 Bytes 36 nvit5 SNVT_strase 31 Bytes 36 invil SNV stase 31 Bytes 38 nvi17 SNVT_strasc 31 Bytes 36 DE SNVT_st_asc 31 Bytes 38 Yar IN 20 fwg SNVT_sti_asc 31 Bytes 36 nviz0 SNVT stase 31 Bytes 36 nvi21 SNVT_stase 31 Bytes 36 Var_OUTs nvi22 SNVT_stt_asc 31 Bytes 36 Bool_OUTs Memory Usage maco WAGO TOPLON PRIO Configuration 47 Software Configuration The structure of the operating surface in the dialog windows is uniform e On the left hand side is a bar containing the symbols of the individual input and output groups For the coupler 750 319 these are the groups Node NVIs NVOs NVs for the network variables and the groups DIs DOs Als AOs for the digital and analog inputs and outputs For the controller 750 819 these are the groups Node NVIs NVOs NVs for the network variables and the groups Bool_INs Bool Outs Var_INs Var _OUTs for the declared variable Inputs a
17. 750 504 4 Channel digital output 0 5A 24 V DC 750 506 2 Channel digital output 0 5A 24 V DC 750 509 2 Channel solid state load relay 2 outputs 0 3 A 230 V AC DC 750 512 Relay output 2 n o non floating 250 V AC 750 513 Relay output 2 n o floating 2 0 A 250 V AC 750 514 Relay output 2 change over contacts floating I O 0 5 A 125 V AC 750 516 4 Channel digital output 0 5A 24 V DC 750 517 Relay output 2 change over contacts floating 1 0 A 250 V AC 750 519 4 Channel digital output 20mA 5 V DC 750 522 2 Channel Solid State load relay 2 outputs 3 0 A 230 V AC DC 750 523 Relay output 1 n o floating 16 A 230 V AC 750 530 8 Channel digital output 0 5A 24 V DC 750 535 2 Channel digital output 24 V DC EEx i WAGO TOPLON PRIO Configuration 33 General Comments to the node configuration Analog outputs blue group marking 750 550 2 Channel analog output 0 10 VA 750 552 2 Channel analog output 0 20mA 750 554 2 Channel analog output 4 20mA 750 556 2 Channel analog output 10V DC 750 557 4 Channel analog output 10V DC 750 559 4 Channel analog output 0 10V DC 750 585 2 Channel analog output 4 20mA EEx 1 Special modules colorless group marking 750 601 Internal system supply with fuse holder 24 V DC 750 602 Internal system supply passive 24 V DC 750 609 Internal system supply with fuse holder 230V AC 750 612 Internal system supply passive 230V AC DC 750 613 Inter
18. A selection menu appears containing all SCPTs and SNVTs of the SCPT and SNVT Master list Note gt For a list of all available SCPTs as well as details concerning their definitions please see the LonMark SCPT Master List under http www lonmark org PRESS DOWNLOAD SCPTLIST PDF or the help file SCPT hlp which you can find on the WAGO TOPLON CD ROM under the directory english other components echelon To open the help file click here JSCPT hlp To choose the variable type scroll up or down the menu using the scroll bar and click on the appropriate type The adequate ID will be automatically entered into the ID column Click on the button Refresh View The data format of the variable value will then be adapted to the chosen type You will be asked whether changes shall be accepted confirm by clicking the button Yes WAGO TOPLON PRIO Configuration 111 Software Configuration The dialog window will now be closed and after reading in the configuration with the updated view reopened automatically 8 If you wish to assign a name to the configuration variable click on the appropriate cell of the column CP name and enter the name This name will also be used in network management tools Browser or in applications using a SCADA tool Note gt When setting or changing a value in a SCADA tool e g temperature via a sliding controller it is essential to create an Accept
19. You can of course print out this online manual as a whole individual pages or entire chapters as a paper document WAGO TOPLON PRIO wWAGO 6 Review Information on this manual 1 1 3 Structure and compilation of this manual In chapter Review this manual gives you an overview of the use and the possibilities of WAGO TOPLON PRIO Chapter Start gives you brief instructions on how to install and start WAGO TOPLON PRIO on your PC Subsequently in chapter View all views menus and symbols are explained which you find on your screen once the manual is installed The chapter Configuration contains important information on how to perform the hardware and software configuration for your LON nodes In addition to a brief description of the view and the structure of the individual dialog windows you find instructions of how to carry out the configuration step by step To be able to analyze and document your configuration WAGO TOPLON PRIO several possibilities outlined in chapter Diagnosis possibilities Should you encounter problems during configuration of your LON nodes please read chapter How to overcome a problem Please refer to chapter Device template details for detailed information regarding the network interface such as the description of object types and network variables Chapter SNVT details has a list of the most important standard network variable types from the SNVT master list For e
20. appropriate for configuration since they will be set to 0 after a power failure of the controller Further information You can find detailed information about the compilation of the watch list in the WAGO IO PRO 32 manual chapter Resources Watch and Receipt Manager Open the WTC file in an editor e g Notepad You will get a list with all configuration variables In order to assign a parameter to the configuration variables enter a colon an equal sign and the value after every variable e g 200 Attention Do not use blanks between colon equal sign or value or any other special characters Save the settings by clicking on the menu item File Save in the menu bar of the editor 4 3 5 3 How to load parameter values from the WTC file maco Attention After a modification in the WAGO IO PRO 32 IEC 61131 3 program it is essential to import the SYM file first before loading the WTC file 1 Click on the menu item WAGO IO PRO Open Download WTC File in the menu bar of the TOPLON PRIO main mask WAGD 0 PRO S Open SYM file Open Download WTC file Ed Download IEC 61131 Application Configuration IEC 61131 WAGO TOPLON PRIO Configuration 113 Software Configuration The window Selection of a SYM file opens Selection of a SYM file node1 ha Ed Suchen in J WAGO TOPLON PRIO Bin I Templates Dateiname HTE UCS te Sn ST oe a E Dateityp sym
21. sym x Abbrechen Tl Mit Schreibschutz offnen 2 Choose the folder which contains the appropriate WTC file 3 Highlight the WTC file by clicking on it Now click on the button OPEN The window will be closed and the parameter values for the configuration variables will be loaded Note If the WTC file is not loaded successfully you will get an error message and the window Import Configuration opens Choose a SYM file from that window and import it Now reload the WTC file WAGO TOPLON PRIO wWAGOo 114 Configuration Software Configuration 4 3 6 Filtering data The table form view allows you to sort information according to your wishes by filtering Filtering means to select certain data records and to group same according to the desired criterion For this purpose the following filter bar is above the table To be able to sort input or output records according to a specific criterion move the header of the column to be used as a sorting criterion to the filter bar The corresponding inputs or outputs are now grouped and sorted in the first column according to the selected criterion The individual sorting criterion is displayed in the filter bar In order to use several sorting criteria at once select the desired columns one after the other or move the corresponding headers into the filter bar Filtering can be continued as desired The inputs or outputs are then nested in a directory tree
22. 1 SNVT_switch You wish to record for example a brightness value in the range of 5 70 You have connected a network output variable of type SNVT_switch element value resolution 0 5 to the input variable To establish the NV limits divide the desired range limits 5 and 70 by the SNVTs resolution of 0 5 For the bottom limit you get 5 0 5 10 and for the top limit 70 0 5 140 You obtain the following values to be entered into the dialog window Bottom limit of the variables 0 corresponds to 10 in the NV and Top limit of the variables 65535 corresponds to 140 of the NV maco 98 e Configuration Software Configuration maco Example of Scaling 2 SNVT_temp You wish to record for example temperature values in the range of 40 C 75 C You have connected a network output variable of type SNVT_temp resolution 0 1 C Offset 2740 to the input variable To establish the NV limits divide the desired range limits 40 C and 75 C by the 0 1 C resolution of the SNVT You obtain the following values 400 and 750 SNVT_temp being a special case you have to take the offset into account and add 2740 to both values You obtain the following values to be entered into the dialog window Bottom limit of the variables 0 corresponds to 2340 in the NV and Top limit of the variables 65535 corresponds to 3440 of the NV Column 6 SendOnDelta In this column you can ent
23. 4 3 3 Setting the Remote I Os only for Coupler ccceseeeeeeseeeees 66 4 3 4 Setting the Prog Remote I Os for Controller ccceeeeeeees 86 4 3 5 Conn eurat om IEC C131 icsiecisnscuunusetvuesnseceawonsanutenstuttonsunsese 109 4 3 6 Filtering data secs paniesieeccencseciesunecgsuseaesavennsieseevuunt asvnnavavewsaattavoeaeestavears 114 4 3 7 De selecting the data filtering s csssssssessossssecessesosssosesaecenassnes 114 4 3 8 End Software Configuration cgsss vc asassnacacesvencdecsinsencaassecaiaennceevicaes 114 5 Diagnosis possibilities seoosooosooessossssesssocssocssoosssoosssossssesssesssoossosssss 115 5 1 Status display occiso a R T RE 115 5 2 PATO WISE AA E E E 116 5 3 APPETITE esetere eetere eireta AE R AEE E ER aE EErEE ARRE 118 5 3 1 Information on TOPLON PRIO seesessseessesessssessessrssressessrssees 118 5 3 2 Information on the node ssesseseeesseesseseesseesseserssesseesseserssresseseese 118 5 3 3 Information on network variables cccccsccesseceseeeseeeeeeeeeeeeees 120 5 4 PVCU CITA TOI chacdesaeccessicdececcsanersearcapsacencerecicuurcacuneaventeresetacesumeacnnars 121 5 4 1 Presentation TYPES ss sactcisndisniceedstascsnasatcunadaancanasidncciascsadiapietieteeantece 121 5 4 2 Printing CEA Alcs acre sieccatas ennan a aAA EEFE EEA 122 5 5 How to overcome a PLO DCM srisessssnsesuusiordyasewscesousenseuavseinasabesssounss 125 6 Device template details icaiuccenecosssnsssercscenascndvesse
24. 4 Boolean output variable To define the settings for the Boolean output variables select the Bool_ Outs group in the left hand bar Now the table in which you can enter your Bool Out settings appears in the center part of the dialog window The user level selected in the options dialog is not relevant to set the Bool Outs the display contains eight columns for both user levels Standard and Expert Expert user level o 10 Configuration Subsystem_1 ioi x Name Adaress Connected Element ON Value _ OFF Value _ TimeOut va NVI valuation E EEN Apply Refresh Bool_OUTs Var_INs e Column 1 Name The Name column names all Boolean output variables that you have declared in your IEC 61131 application They are available after importing the SYM file No settings are possible in this column e Column 2 Address The Address column lists all Boolean output variable addresses Also these are available after importing the SYM file The addresses cannot be changed WAGO TOPLON PRIO maco 92 Configuration Software Configuration maco Column 3 Connected to This column allows to connect a desired network input variable to each Boolean output variable for the communication via the network For this purpose all NVIs available to you on the basis of your device template selection are listed in
25. 74 Configuration Software Configuration Standard user level o 10 Configuration Subsystem_1 Drag a column header here to group by that column Jano Name Conectedto __ Element_ Scale Send nDeta Di or Apply Refresh e Column 1 AI No In the AI No column all analog inputs available to you in your network node are listed numbered The number of analog inputs depends on the hardware configuration defined beforehand No settings can be made in this column e Column 2 Name This column permits you to enter the desired name for each analog input e Column 3 Connected to In this column you can connect a desired network output variable to each analog input for communication via the network For this purpose all NVOs available to you on the basis of your device templates are listed in a selection menu The attendant SNVT for each NVO is indicated in brackets No default NVO is connected Note gt You can define the SNVTs for the network output variables in the settings of the NVOs column Type e Column 4 Element This column permits you to connect a specific element of the SNVT of the selected NVO to the corresponding analog input For this purpose all elements of the attendant SNVT are available to you in the SNVT details window which is polled automatically No default element is connected Note gt The
26. Attention If the hardware configuration does not coincide with the bus module constellation of the connected node there is the risk of losing configuration data WAGO WAGO TOPLON PRIO View 19 Main mask 3 View 3 1 Main mask TOPLON PRIO main mask is obtained once you have started TOPLON PRIO o nodel Subsystem_1 IO x File View Extras Configuration WAGO IO PRO onnea me a aCe r Ws t 08 38 01 Start E OffNet Fig 2 WAGO TOPLON PRIO main mask g912377e In its top section the main mask contains a menu bar and a tool bar In the middle is the image of a WAGO LON node the bottom section has the status bar WAGO TOPLON PRIO wWAGO 20 View Menu bar 3 2 Menu bar The menu bar in the main mask is matched to the head end of your fieldbus node All menu points for fieldbus coupler 750 319 and fieldbus controller 750 819 are identical with one exception For the fieldbus controller 750 819 you additionally obtain the menu point WAGO IO PRO to download your IEC 61131 application The menu bar on the TOPLON PRIO operating surface provides the following menu points File View Extras Configuration WAGOIO PRO Fig 3 Menu bar in the main mask g912314e 3 2 1 1 Menu file Fie d Import Alt 7 Expott Alt E Exit Akt 0 Fig 4 Menu file g912326e Menu entry Description Import Loading of an existing node configuration into the pl
27. DO AI AO NV NVI NVO SNVT ID Bool_INs Bool OUTs Var_INs Var_OUTs Input Output Digital Input Digital Output Analog Input Analog Output Network Variable Network Variable Input Network Variable Output Standard Network Variable Type Identifier unambiguous identification Boolean input variable declared acc to IEC 61131 Boolean output variable declared acc to IEC 61131 Other input variables declared acc to IEC 61131 Other output variables declared acc to IEC 61131 WAGO TOPLON PRIO Review e 9 About WAGO TOPLON PRIO 1 2 About WAGO TOPLON PRIO 1 2 1 What is WAGO TOPLON PRIO WAGO TOPLON PRIO is a comfortable easy to use plug in for your LNS based network management tool software The network management tool software allows you to create your project and to interconnect your network LON nodes The plug in TOPLON PRIO forms the interface between your LON field bus controller and the LON network With TOPLON PRIO you can directly connect network variables to the information of your network node and then send receive or link same via the LON network As an additional feature WAGO TOPLON PRIO permits to freely select the standard network variables type of the individual network variable The abbreviation PRIO means Programmable Remote I O explicitly referring in addition to the remote I O functionality to its use for programming via IEC 61131 3 For the LON fieldbus coupler 750 3
28. Object The controller object is defined for the complex processing of sensor data by means of algorithms e g for a setpoint actual value comparison controller function Data point A data point is a channel used for the input or output of process data WAGO WAGO TOPLON PRIO Dialog window Element EN 61131 3 End module Glossary 155 The most important SNVTs A dialog window is a window appearing on the screen intended to allow the user to influence the program sequence The user is given information and can make entries in the dialog window or select different buttons Some standard network variable types are defined by complex structures The components of a structure are termed elements WAGO TOPLON PRIO permits to connect a certain element of an SNVT to a bus module channel or to a variable declared in IEC 61131 European Standard containing the German translation of ZEC 1131 3 and having the status of a German Standard The end module is mandatory to ensure a perfect node operation It is used to properly terminate the fieldbus node and is always used as the last module The end module has no I O function Colored markers Fieldbus node The WAGO I O SYSTEM bus modules are identified with colored markers Digital inputs yellow Analog inputs green Digital outputs red Analog outputs blue Special and end module colorless Abridged form node A fieldbus node always consists of a bus coupler as a
29. SNVT_override enum 97 1 Over range mode 0 maintain current value 1 set specified value 2 set default value Oxff NUL SNVT_preset Byte 0 Learning 94 14 Learning mode mode 0 poll value Byte 1 2 Selector 1 learning mode Byte 3 6 Value current value Byte 7 13 2 learning mode SNVT_elapsed_tm transmitted value 3 value feed back Oxff NUL Selector Number of preset entry 0 65535 SNVT_scene Byte 0 Function 115 2 Function Byte 1 Scene number 0 poll scene 1 learn current scene Oxff NUL Scene number 0 255 WABE WAGO TOPLON PRIO SNVT Details e The most important SNVTs 149 SNVT_scene_cfg SNVT_ setting Byte 0 Function Byte 1 Scene number Byte 2 Setting Byte 3 4 Transition number Byte 5 6 Transition time Byte 7 8 Delay time Byte 9 Priority Byte 0 Function Byte 1 Value Byte 2 3 Transition number 116 117 10 Function 0 save scene 1 delete scene from list 2 display scene data 3 signal number of scenes 4 signal maximum number of scenes Oxff NUL Scene number 0 255 Setting Setting number Transition number 0 65535 Transition time SNVT_time_sec Delay time SNVT_time_sec Priority 0 3 0 lowest 3 highest alarm level Oxff NUL Function 0 setting off 1 setting on 2 reduce setting by a specified value
30. WAGO TOPLON PRIO will be directly started in this node WAGO TOPLON PRIO maco 18 Start TOPLON PRIO Start 2 3 3 OnNet OffNet mode WAGO TOPLON PRIO can be processed in the OnNet mode as well as in the OffNet mode Changing the operating status is possible during operation The status change in TOPLON PRIO occurs automatically following a status change in the network management tool software Independent of the fact whether or not a configuration is being created in the OnNet or in the OffNet mode it can be stored by means of a file export A file import allows to transmit the configuration to one or several nodes at any time OnNet The OnNet operating status requires the connection of a physical fieldbus node In this manner the communication between the plug in T OPLON PRIO and the node hardware can be made In other words the set configuration data can be directly loaded into the node or downloaded from the node OffNet The OffNet operating status can do without the connection of physical node hardware As such die configuration settings in TOPLON PRIO are made offline This offline configuration allows you to prepare settings without an available fieldbus node and to transmit them later to one or several nodes Direct take over of the configuration data into the physical hardware is however only possible when a coinciding bus module constellation prevails and only following a change into the OnNet mode
31. a byte 8 2 4 Structures Some standard network variables types are defined by complex structures The components of a structure a termed elements WAGO TOPLON PRIO permits to connect a certain element of an SNVT to a bus module channel or to a variable declared in an IEC 61131 WAGO TOPLON PRIO wWAGO 136 SNVT Details The most important SNVTs 8 3 The most important SNVTs The following chapters contain lists of the most important SNVTs indicating also the number range the SNVT ID the byte length and the individual use Source LONWORKS Installation Manual LONWORKS Practice for electrical engineers LON User Organization e V 2000 VDE VERLAG Berlin and Offenbach ISBN 3 8007 2575 4 Further information For a list with all available SNVTs and details relating to their definition please refer to the LonMark SNVT Master List under http www lonmark org 8 3 1 1 Floating point variables with a number range of 1E38 1E38 or 0 1E38 maco Designation Area pie Bytes Use SNVT_amp f 1E38 E38 A 48 4 Current in amps ANSI IEEE 754 float SNVT_angle f 1E38 1E38 Rad 49 4 Angle indication in radian ANSI IEEE 754 float SNVT_angle_vel_f 1E38 1E38 rad sec 50 4 Angle speed in radiant sec ANSI IEEE 754 float SNVT_btu_f 1E38 E38 btu 67 4 Thermal energy in British ANSI IEEE 754 float Thermal Units 1 btu
32. additional columns are mapped in The description of the operating surface encompasses the more comprehensive user level Expert The decimation for the Standard user level is clearly pointed out Note it to any other Standard user level Bool_INs Bool_OUTs Var_OUTs WAGO TOPLON PRIO NVOs i 5 10 Configuration Subsystem_1 norky Send On Reset _stt_asc m SNVT_st_asc 3 O SNvT_st asc 3 OF SNVT_strase 3 0 O Sa E Oo SNVT_st_asc 3 O NT stac bey O SNVT_st_asc 3 O NyT_st_asc 3 OF NYT_str_asc 3 oO cea ana NVT_st_ase 3 Eee an ot ave O TETEN E imo Wee 3 sO _ gS vote aes 8 ans os O svr a O o mo a 18 nvol SNVT_st_asc 3 O 19 nvol8 O In this group you can copy an NVO setting performed and transfer Apply Refresh 58 Configuration Software Configuration Expert user level o 10 Configuration Subsystem_1 aa NVO No Network variable Type SNVTAD De i n T_str_as 36 0 0 SNVT_str_as SNVT_str_as SNVT_stras SNVT_st_as SNVT_stras SNVT_sti_es TSNVT_stt_as SNVT_stas SNVT_stras SNVT_st_as SNVT_str_as SNVT_st_as SNYT_str_as SNYT_str_as SNVT_stas SNVT_str_as 36 SNVT_str_as i SNVT stias E SNVT_str_as SNVT_str as SNVT_stras Var_OUTs SNVT_str_as 3 Apply Refresh Det
33. are entered in the Network variable column They cannot be changed Column 2 Type In the Type column the type UNVT_dio is displayed for each collective variable Note gt For more detailed information to this subject please refer to chapter Device template details General information on the network interface The nvoStatus type cannot be changed Column 3 MinSendTime s In this column you can enter a MinSendTime time in seconds for the network output collective variables nvo_di_outpa and nvo_do_ outpa Each network output variable with a default MinSendTime is transmitted at the earliest once the set time has elapsed The default value is 0 0 s i e MinSendTime is de activated Column 4 MaxSendTime s This column allows you to enter a MaxSendTime in seconds for the network output collective variables nvo_di_outpa and nvo do_outpa Each network output variable with a default MaxSendTime is transmitted at the latest once the set time has elapsed irrespective of a value change The default value is 0 0 s i e MaxSendTime is de activated Attention To preclude an excessive network load we recommend to select MaxSendTime gt 2 sec Column 5 TimeOut Monitoring s In this column you are offered the possibility to enter a time for the TimeOut monitoring in seconds for the network input collective variable nvi i inpa Each network input variable with a default TimeOut time is cyclically polled after t
34. base and if TOPLON PRIO is in the OnNet mode the application of the configuration in the fieldbus coupler controller can be made simultaneously and online If the configuration is performed offline in the OffNet mode i e without the fieldbus nodes being connected the configuration settings are only applied in the LNS data base but not in the physical hardware Configurations performed online as well as offline can be saved by exporting the file As soon as a node hardware is connected and TOPLON PRIO has change from the OffNet operating mode to OnNet you can import the corresponding file and transfer the configuration data into your fieldbus coupler controller If your fieldbus coupler is already configured you can also directly load the configuration from the node into the plug in TOPLON PRIO and into the LNS data base 4 1 3 1 Apply hardware configuration For the application of the hardware configuration the button CLOSE CONTINUE is located in the right hand bar of the dialog window Click on this button to have your settings for the hardware configuration applied in the LNS data base and in the connected node Subsequently the dialog window automatically closes WAGO TOPLON PRIO maco 36 e Configuration General Comments to the node configuration 4 1 3 2 Apply software configuration For the application of the software configuration you can chose from three buttons located in the right hand bar of the d
35. calling subscriber occupied 19 network occupied 20 telephone fault Oxff NUL SNVT_trans_table Structure 96 30 0 linear 1 acc to smallest fault square Oxff NUL SNVT_zerospan Byte 0 1 Zero point Byte 1 2 Proportional factor Zero point Offset 163 84 to 163 835 in 0 005 increments 50 ppm Proportional factor 0 32 7675 in 0 0005 increments WAGO TOPLON PRIO 152 SNVT Details The most important SNVTs 8 3 1 12 Special time formats SNVT elapsed tm Byte 0 1 Day 87 7 Time elapsed Byte 2 Hour Day 0 65534 Byte 3 Minute 65535 NUL Byte 4 Second Hour 0 23 Byte 5 6 Milli second a minute Milli second 0 999 SNVT_time_stamp Byte 0 1 Year 84 7 Year Byte 2 Month 0 year not Byte 3 Day specified Byte 4 Hour 1 3000 year A D Byte 5 Minute 65535 NUL Byte 6 Second Month 0 month not specified 1 12 month Oxff NUL Day 0 day not specified 1 31 day of the month Oxff NUL Hour 0 23 Oxff NUL Minute 0 59 Oxff NUL Second 0 59 Oxff NUL SNVT_time_passed 40 7 replaced by SNVT_elapsed_tm SNVT_date_time 12 7 as SNVT_timestamp SNVT_data_cal 10 7 as SNVT_timestamp SNVT_date_day enum 11 1 0 Sonday 1 Monday 6 Satruday Oxff NUL maco WAGO TOPLON PRIO SNVT Details 153 The most important SNVTs
36. connect a collective variable to a maximum of 248 digital data points Software key data The maximum number of 52 network variables results from the maximum number of 62 network variables that can be defined in a LON node Some of these 62 network variables are required for the communication with the plug in TOPLON PRIO for configuration and parameterization of the IEC 61131 software as well as for further system tasks The maximum number of 248 digital data points can be assigned a length of 31 bytes via the collective variable Hardware key data To guarantee the internal communication in a fieldbus node the maximum physical extension of the node must not exceed 831 mm in length Therefore you could connect a maximum of 64 I O bus modules to a LON fieldbus coupler controller including internal system supply modules excluding an end module In this manner the maximum number of 124 analog data points which are supported by WAGO TOPLON PRIO you reach with 62 analog 2 channel bus modules The max modularity with digital bus modules is four That permitts you to achieve the maximum number of 248 digital data points with 62 digital 4 channel bus modules Please refer to chapter Bus module types for the bus modules supported by WAGO TOPLON PRIO WAGO TOPLON PRIO maco 12 e Start System prerequisites 2 Start 2 1 System prerequisites maco Prior to installing WAGO TOPLON PRIO please check the following
37. connected a TimeOut time has to be updated at the latest once the set time has elapsed If the value of the NVI is not updated after the set time the attendant output is set to a defined preferred state The standard time is a default 0 0 s i e the TimeOut monitoring is de activated Attention To exclude incorrect information we recommend the selection of a TimeOut time corresponding to 2 to 3 times the defined MaxSendTime of a binded network output variable Note gt The preferred states for the attendant outputs can be defined in WAGO TOPLON PRIO the settings of the DOs or Bool OUTs Column TimeOut Preferred State and AOs or Var_OUTs Column TimeOut value maco 54 Configuration Software Configuration You can define the MaxSendTime time for the connected network output variables in the settings of the NVOs column MaxSendTime 4 3 2 4 How to set NVI 1 Select the desired nework input variables you wish to set 2 To name the network input variable according to your requirements enter any name for the corresponding NVI in the Network variable column 3 To connect a type to the NVI click on the attendant NV type in the Type column On the right hand side of the table cell is a small button Click on this button You are shown a selection menu containing all SNVTs of the SNVT Master list 4 To select the NV type move up or down in the selection menu using the scroll bar and click on the desi
38. connection of an SNVT element is only necessary with SNVTs defined by a structure maco WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 75 Software Configuration Column 5 Scaling You can enter a default top and bottom limit and as such a linear scaling for each analog input and for the attendant network output variable When entering the desired limit values observe the resolution of the standard network variable type of the connected network variable You determine the limit values for the network output variable with the division of the desired area by the resolution of the SNVT NV limit area Desired area Resolution of the SNVTs Attention SNVT_temp is a special case An offset of 2740 C must be added to the computed limit area of the NV for SNVT_temp As standard the limits of the values in brackets comply with the data area of the module If you wish to use the entire module area they can remain unchanged Example 1 SNVT_switch You wish to record for example a brightness value in the range of 5 70 with an analog input module range 4 mA 20 mA You have connected a network output variable of the type SNVT_switch Element value resolution 0 5 to the analog input To establish the NV limits divide the desired range limits 5 and 70 by the SNVTs resolution of 0 5 For the bottom limit you get 5 0 5 10 and for the top limit 70 0 5 140 You obtain the following values t
39. define a TimeOut Preferred State for the desired Boolean output variable Each Boolean output variable which has a default TimeOut Preferred State is automatically set to the selected state if the value is not updated within a defined TimeOut time This state is maintained until a new value is transmitted via the connected network input variable and assessed WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 93 Software Configuration n You can select between no change active or inactive Default setting no change i e the output is to maintain the value prior to the TimeOut Note gt You can define the time of the TimeOut monitoring for the network input variables in the settings of the NVIs column TimeOut monitoring Column 8 NVI assessment The NVI assessment allows you to define the value of a Boolean output variable in the event that the attendant NVI transmits a value deviating from the defined ON or OFF value You can select between no change ON value i e Boolean output variable active and OFF value i e Boolean output variable de activated Default setting no change 94 e Configuration Software Configuration 4 3 4 5 How to set Bool_Outs maco 1 9 10 11 12 In the Name column select the desired Boolean output variable you wish to set To connect a network input variable to the Boolean output variable click on the corresponding cell in the
40. ee filis Select the corresponding menu point for the desired type of presentation Table form The presentation as a Table offers you the possibility to perform the desired settings and assignments in a clearly structured manner When selecting several groups the corresponding tables are represented one underneath the other The information on the individual groups can either be displayed in full size or they can for a better review be reduced to their titel line Another advantage of the table form is the possibility of filtering data Card type The Card type type of presentation also allows all settings Here all information is grouped into an input or an output in form of cardfiles The card type allows you a better review for the documentation of individual data point settings WAGO TOPLON PRIO maco 122 e Diagnosis possibilities Documentation 5 4 2 Printing data You can print your entire node configuration for documentation purposes Printing out of all data points designations and settings facilitates the allocation and also the analysis of your network 5 4 2 1 Print review The print review shows you the appearance of the desired print out Each print review has the following symbol bar Menu entry Description gt gt Leafs one page backwards or forwards R Zooms the view larger or smaller o Displays the print review of a page w Displays the print review of a double page Page Setup P
41. head end WAGO TOPLON PRIO supports all bus modules developed by WAGO for the WAGO I O SYSTEM 750 For a fieldbus coupler 750 319 as a head end TOPLON PRIO currently supports the following listed bus module types In addition to this so called dummy modules are implemented in WAGO TOPLON PRIO With an offline accomplished configuration these modules can be used without exact specification For this the bus module types 2 4 and 8 Channel Digital Input and Output as well as 2 and 4 Channel Analog Input and Output are available Digital inputs yellow group marking 750 400 2 Channel digital input Filter 3 0 ms 24 V DC 750 401 2 Channel digital input Filter 0 2 ms 24 V DC 750 402 4 Channel digital input Filter 3 0 ms 24 V DC 750 403 4 Channel digital input Filter 0 2 ms 24 V DC 750 405 2 Channel digital input 230 V AC 750 406 2 Channel digital input 120 V AC 750 408 4 Channel digital input Filter 3 0 ms 24 V DC 750 409 4 Channel digital input Filter 0 2 ms 24 V DC 750 410 2 Channel digital input Filter 3 0 ms 24 V DC 750 411 2 Channel digital input Filter 0 2 ms 24 V DC 750 412 2 Channel digital input Filter 3 0 ms 48 V DC 750 414 4 Channel digital input 2 conductor connection high side switching 750 415 4 Channel digital input 2 conductor connection 750 430 8 Channel digital input Filter 3 0 ms 24 V DC 750 431 8 Channel digital input Filter 0 2 ms 24 V DC WAGO TOPLON PRIO maco 32 e Co
42. head end a number of bus modules and an end module for the end Building function Device The building function is a function especially intended for the use in building automation such as stairwell light and blind controls A node in a network management tool software is often also termed Device WAGO TOPLON PRIO wWAGO 156 e Glossary The most important SNVTs Device template Modularity Group marking IEC 61131 3 Configuration Device templates indicate the profile of a node in the network They area available in the form of xif files external interface files and contain all network relevant data These data taken as an entity determine the interface to the network The network interface e g transceiver parameters and detailed information on the network variables used must be known to be able to integrate a node into a system In this context modularity smallest unit means the smallest number of input and or output channels All WAGO I O bus modules are marked with colored labels the so called group marking carriers They ensure the unambiguous distinction of the module functions International Standard from 1993 for modern systems with PLC functionality Based on a structured software model it defines a series of high performance programming languages that can be used for the most varied automation tasks Also refer to EN 61131 3 Configuration means the determination of the outer form hardware
43. how to interpret the values An SNVT is either a scalar type or a structure type As a scalar type for example a fixed point number a floating point number or an enumeration is used to transmit individual values As a structure type the SNVT can be defined by a record of one or several scalar types by embedded simple or more complex structures arrays and or logic unions The components in a structure type are termed elements WAGO TOPLON PRIO SNVT Details 135 Data types 8 2 Data types 8 2 1 Fixed point number The presentation of the fixed point numbers is defined as follows for all fixed point SNVTs SNVT area Type definition Meaning Length in byte 0 65 535 unsigned long Long integer number 2 without prefix 32 768 32 767 Signed long Long integer number with 2 prefix 0 255 Unsigned short Short integer number 1 without prefix 128 127 Signed short Short integer number with 1 prefix 8 2 2 Floating point number The representation of the floating point numbers is made according to the ANSI IEEE 754 floating point with a total of 32 bits 1 prefix bit 8 exponent bits and 23 mantissa bits Note gt For more detailed information on the use of floating point numbers please refer to the Neuron C Reference Guide 8 2 3 Enumeration The data type enumeration is an enumeration type composed of a number of string constants The enumeration SNVTs are displayed as
44. inputs and outputs Note Once the maximum number of a bus module group is reached the attendant number is displayed in red Although later manual insertion of further bus modules in the graphic is possible the physical arrangement of the bus modules cannot be recognized by the bus coupler They can also not be configured WAGO TOPLON PRIO maco 40 Configuration Hardware Configuration maco The bottom section graphically shows the bus module constellation of your fieldbus node The bus modules are displayed in color in line with their connection to a group Digital and analog input and output modules are marked with color markers in the graphic according to the WAGO group marker carriers DIs yellow DOs red AIs green AOs blue special modules and end modules with colorless markers In addition a differentiation is made as to whether or not a bus module with 2 or 4 channels is concerned Bus module types that are not recognized by TOPLON PRIO are represented in gray If more than 30 bus modules are displayed in a row you can see the bus modules that do not appear on the screen by moving the graphic node display to the right and to the left To this effect there is a scroll bar beneath the node graphic EA EESC Click on the left hand screen scroll arrow al to move the display to the left Click on the right hand screen scroll arrow El to move the display to the right On the right hand side of the
45. mode all changes to the node configuration are registered not only by the LNS data base but also in the physically existing hardware Open Loop Sensor Object An Open Loop Sensor Object has no feedback network variables Refer also to Closed Loop Sensor Object Optional network variable In addition to the mandatory network variables the node object has optional NVs such as nviTimeSet nvoAlarm and nvoFileDirectory WAGO TOPLON PRIO wWAGO 160 Glossary The most important SNVTs Options dialog The options dialog offers three different dialog windows for the user to select settings to be taken into account for program visualization e g the program language German English Plug In A Plug In is an additional program extending the functionality of a higher ranking program Internal system supply module Abridged form Supply module An internal system supply module is used to supply I O bus modules with the individual supply potential Reset Reset means the reset of the bus coupler supply Following a supply voltage failure of the bus coupler the bus coupler is voltage supplied again SCPT Abbreviation for Standard Configuration Property types SCPTs spoken Skipitts are firmly pre defined standardized configuration variable types for configuration data There is a set of SCPTs e g SCPT_summerTime SNVT_winterTime SNVT_luxSetpoint usw See also Configuration properties CPs SCPT Masterliste Lis
46. network input variable coincides with the defined OFF value The bottom limit value of the validity range of the SNVTs or of the SNVT element is proposed as a default value WAGO WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 71 Software Configuration Column 7 TimeOut Preferred State In this column you have the possibility to define a TimeOut Preferred State for desired digital outputs Each digital output with a default TimeOut Preferred State is automatically set to the selected position if the value is not updated within a defined TimeOut time This position is maintained for as long as another value is transmitted and assessed via the connected network input variable You can select between no change DO active or DO inactive no change is the default setting i e the output is to maintain the value prior to the TimeOut Note gt You can define the time of the TimeOut monitoring for the network input variable in the settings of the NVIs column TimeOut monitoring Column 8 NVI assessment NVI assessment permits you to define the value a digital output is to adopt if the attendant NVI transmits a value differing from the defined ON or OFF value You can select between no change ON value DO active and OFF value DO inactive Default setting no change 72 Configuration Software Configuration 4 3 3 4 How to set the DOs maco 1 Select the desired digital output you wish
47. or actuator objects with the variable NVs are defined for the connection of input or output data whereas the sensor or the actuator object with the fixed NVs are defined as collective variables The controller object is used as an interface for the download and for the direct parameterization of the C165 application The fixed NVs nvo_di_outpa and nvo_do_outpa located in the two sensor objects are collective variables of type UVNT_dio for the network output The fixed NV nvi i inpa located in the actuator object is a collective variable of type UVNT_dio for the network input nvo_di_outpa The process image of the inputs can be represented in the network via the collective variable nvo_di_outpa For the fieldbus coupler 750 319 the variable type UVNT_dio is structured analog to the SNVT_ state and consists of a bit field having 31 bytes In this manner a total of 248 bits are available to achieve the maximum presentation of 248 digital input data The input data to the bit field of 31 bytes is automatically assigned WAGO TOPLON PRIO Device template details 129 Network interface For the fieldbus controller 750 819 this NV presents the first 31 bytes in the output area of the DP RAM With it the process image of the max 31 bytes input variables Bool_INs and or Var_INs can be represented independent of the variable type or size The input data to the first 31 bytes of the output area is automatically assigned nvo_do_outpa
48. or via the corresponding symbol in the symbol bar dj Attention If the hardware configuration of the imported file does not agree with the bus module constellation of the connected node configuration data could get lost WAGO TOPLON PRIO maco 38 e Configuration General Comments to the node configuration 4 1 6 Load configuration maco If a network assignme has already been created for a fieldbus node WAGO TOPLON PRIO permits you to read in the configuration data of this network connection from the connected device Attention All previous configuration settings are overwritten by a configuration loaded down from the node To be able to load the configuration of a connected node open the options dialog via the Extras Options menu Select the register Start activate Upload the configuration from the device and click on the OK button After a restart of the plug in the network connection is read into TOPLON PRIO from the node and the options dialog is automatically connected If the option Load configuration from the device is already activated prior to starting TOPLON PRIO directly in a pre configured node the network connection of the connected node are automatically loaded and thus available to you from the beginning of the software configuration WAGO TOPLON PRIO Configuration 39 Hardware Configuration 4 2 Hardware Configuration 4 2 1 Structure of an Operating Surface Configuration of
49. system prerequisites PC Operating system RAM memory Fixed disk storage CD ROM Monitor Mouse LNS LonWorks Network Service min Pentium 100 MHz Recommendation Pentium MI 500 MHz or better Microsoft Windows 95 Windows 98 Microsoft Windows NT 4 0 with Service Pack 5 or better or Windows 2000 Recommendation Windows 2000 with LNS version 3 0 otherwise Windows NT 4 0 min 64 MB Recommendation 128 MB min 20 MB Required for installation VGA or higher recommendation Super VGA Required Version 2 0 or better is installed with the network management tool software Recommendation 3 0 Following a successful check of the system prerequisites continue your installation WAGO TOPLON PRIO 2 2 Installation Start 13 Installation 2 2 1 1 How to install TOPLON PRIO A A Note Installation under Windows NT requires administrator rights Attention WAGO TOPLON PRIO only works with an LNS based network management tool software During installation of WAGO TOPLON PRIO no LNS Object server is installed i e it must be loaded on your PC beforehand Therefore only install WAGO TOPLON PRIO once you have installed your network management tool software 1 Insert the WAGO TOPLON CD in your CD ROM drive 2 Start the processible installation program setup exe 3 Observe the instructions during installation while adopting if possible the maximum de
50. to parameterize the IEC 61131 software For this purpose they offer the possibility to directly tunnel through to the process C165 a parameter byte of maximum 30 WAGO TOPLON PRIO maco 130 Device template details Network interface 6 3 2 Node Status Object Node Object N Type 0 nv iRequest Mandatory ny2 voStatus SNVT_obj_request Network SNVT_obj_status Variables nvoAlarm nv4 SNVT_alarm Optional Network n8 ee gt Variables Configuration Properties optional Fig 20 Node Object g912303e 6 3 3 Open Loop Sensor Object with variable NVs a Open Loop Sensor Object Type 1 Mandat nwoValue Network Sifts gt Variables Fig 21 Open Loop Sensor Object with variable NVs g912304d 6 3 4 Open Loop Actuator Object with variable NVs fe Open Loop Actuator Object y Type 3 nviValue Mandatory BVA SNVT ox Network Variables Fig 22 Open Loop Actuator Object with variable NVs g912306e 6 3 5 Open Loop Sensor Object with fixed NV for DIs Bool_Ins Var_INs C Open Loop Sensor Object E Type 1 Mandatory Network Variables nvo_di_outpa 100 UNVT_ dio Fig 23 Open Loop Sensor Object for DIs with fixed NV g912305e maco WAGO TOPLON PRIO Device template details 131 Network interface 6 3 6 Open Loop Sensor Object with fixed NV for DOs Open Loop Sensor Object i Typ
51. to set in the DO No column 2 To name the digital output according to your requirements enter any name for the corresponding output in the Name column 3 To connect a network input variable to the digital output click on the corresponding cell in the Connected to column A small button appears on the right hand side in the table line Click on this button A selection menu appears containing all NVIs available to you 4 To select the desired NVIs use the scroll bar to move up and down in the selection menu and click on the desired NVI A window opens showing the SNVT and if applicable the elements of this SNVT of the selected NVI 5 Click on the SNVT or on a desired element of the SNVTs in the displayed directory tree structure then click on the OK button A window opens allowing you to enter a default ON value 6 Enter the desired ON value and click on the OK button A window opens allowing you to enter a default OFF value 7 Enter the desired OFF value and click on the OK button The window is closed and your settings displayed in the table 8 To change individual settings click on the corresponding table cell to be changed A small button appears on the right hand side in the table cell Click on this button A window opens allowing you to proceed with the desired setting 9 To enter a default TimeOut Preferred State click on the corresponding cell in the TimeOut Preferred State table A small bu
52. variables 0 corresponds to 10 in the NV and Top limit of the variables 65535 corresponds to 140 of the NV maco 104 e Configuration Software Configuration Example of Scaling 2 SNVT_temp You wish to edit for example temperature values in the range of 40 C 75 C by means of an input variable You have connected a network output variable of type Typ SNVT_temp resolution 0 1 C Offset 2740 to the input variable To establish the NV limits divide the desired range limits 40 C and 75 C by the 0 1 C resolution of the SNVT You obtain the following values 400 and 750 SNVT_temp being a special case you have to take the offset into account and add 2740 to both values You obtain the following values to be entered in the dialog window Bottom limit of the variables 0 corresponds to 2340 in the NV and Top limit of the variables 65535 corresponds to 3440 in the NV Obere Grenze der Variablen 65535 entspricht bei der NV 3440 e Column 6 Use of TimeOut Attention The Use of TimeOut column is mapped out in the Standard user level In this column you have the possibility to activate the Use of TimeOut function for desired Other output variables When this function is activated for a desired output variable the correspondingly connected SNVT element is set to a defined TimeOut value Default setting Use of TimeOut de activated e Column 7 TimeOut value Attention The column TimeOut valu
53. 0 network output variables and 32 network input variables for communication with other network nodes Further information Please refer to chapter Device template details for information on the network variables and network interface WAGO TOPLON PRIO wWAGOo 16 Start TOPLON PRIO Start 2 3 2 Starting TOPLON PRIO WAGO TOPLON PRIO can be started in two different ways e By polling from your network management tool software Further information For a detailed description of the individual software operation please refer to the manual being part of your corresponding network management tool software e or directly as an independent plug in Following the start the TOPLON PRIO main mask appears 2 3 2 1 How to start TOPLON PRIO directly Attention You can only directly start TOPLON PRIO if you have created a node in one of the network management tool software beforehand 1 Start TOPLON PRIO via the start menu of your PC Start Programme WAGO TOPLON TOPLON PRIO Or Double click on the file C Programme W AGO TOPLON PRIO TOPLON PRIO exe in your Windows Explorer The following start mask appears following a direct start One L t pa EBA Oia Bel x IAI 9 se 00 4 tan c mE pe i WAGO 1 0 SYSTEM WAGO TOPLON PRIO 759 341 Version 0 03 9012 START Pa i WAGO Kontakttechnik GmbH Copyright 2000 INNOVE NE CONNECTION WAGO WAGO TOPLON PR
54. 19 TOPLON PRIO allows you to display your modular bus modules in your fieldbus node directly on network variables In addition for the LON fieldbus controller 750 819 freely programmable according to IEC 61131 3 you can connect network variables to all variables declared by you In other words you create data links of any complexity according to IEC 61131 which are processed within the nodes Due to the connection of network variables you can then make the results available to your LON network In the same manner it is possible to link data provided by the network in any way you like 1 2 2 Scope of validity TOPLON PRIO is supported by the WAGO LON fieldbus couplers 750 319 and are backwards compatible to previous hardware versions without programming function In addition TOPLON PRIO is supported by the WAGO LON fieldbus controllers 750 819 with programming function WAGO TOPLON PRIO wWAGO 10 Review About WAGO TOPLON PRIO 1 2 3 What are the possibilities WAGO TOPLON PRIO offers maco WAGO TOPLON PRIO offers you a ready to use software to permit a fast and simple connection of the desired data to network variables NV To this effect this plug in supports all standard network variable types SNVTs thereby allowing you free choice of the data type and data length Depending on whether a fieldbus coupler or a fieldbus controller is plugged in your network node as head end WAGO TOPLON PRIO has a coup
55. 2 3 Enumera oieee neren AE EERE RES 135 8 2 4 SUC CUS aoshe aa aA EE Eai 135 8 3 The most important SNV USi 5 scscssassacesswssaussavsassenleacdsacissiecstiaeseaises 136 o E E TTE E h A E SEE T 154 RUA DCE ED ELE EE A E E A E EEEE 163 WAGO TOPLON PRIO Review e 5 Information on this manual 1 Review 1 1 Information on this manual This manual documents the installation functions as well as the operation of the WAGO TOPLON PRIO 1 1 1 Deviations from this manual WAGO TOPLON PRIO is distinguished amongst others by an ongoing development for which reason it might be possible that this documentation is not up to date at all times Please refer to the Internet for new features under http www wagotoplon com or contact us under our e mail address toplon wago com 1 1 2 How to use this manual This online manual can be used in different ways e as an online manual e as a printed hardcopy manual 1 1 2 1 Online manual You can start the manual directly on your PC The online manual also starts in conjunction with WAGO TOPLON PRIO The following are the advantages of the direct use of the online manual The register Contents allows you to navigate through the individual chapters and subjects Under Index you can look for terms and select the right subject accordingly Use Find if you wish to look for combination terms and to select the right subject accordingly 1 1 2 2 Printed hardcopy manual
56. 2 sec To avoid incorrect information the TimeOut time of a binded NVI should also correspond to 2 to 3 times the defined MaxSendTime of the NVO maco 60 e Configuration Software Configuration Note gt In your settings you can define the TimeOut time for the connected network input variables to the NVIs column TimeOut monitoring 4 3 2 7 How to set NVOs l 2 maco Select the desired network output variable you wish to set In order to name the network output variable as desired enter any name for the corresponding NVO in the Net work variable column To connect a type to the NVO click on the attendant NV type in the Type column A small button appears on the right hand side of the table cell Click on this button A selection menu appears containing all SNVTs of the SNVT Master list To select the NV type use the scroll bar to move up or down in the selection menu and click on the desired SNVT Now in the SNVT ID column in the Expert user level the attendant index is automatically displayed together with the length of the selected SNVT in the Length in bytes column To activate the Send On Reset function click in the corresponding control box in the Send On Reset column to apply a tick Only to be set in the Expert user level a To enter a MinSendTime time click in the MinSendTime column on the corresponding cell and enter the desired time b To enter a MaxSendTime
57. 6 8 3 276 7 rad sec 4 2 Angle speed in 1 10 radian sec increments SNVT_press 3 276 8 3 276 7 30 2 Pressure in 100 Pascal kilopascal 0 1 kPa increments SNVT_volt 3 276 8 3 276 7 volts 44 2 Voltage in 100 mV 0 1 V increments SNVT_volt_dbmv 327 68 327 67 dB uV 45 2 Direct voltage in 0 01 db uV dc 1 100 dB Millivolt SNVT_volt_kilo 3 276 8 3 276 7 46 2 Voltage in 100 Volt Kilovolts 0 1 kV increments SNVT_volt_mil 3 276 8 3 276 7 47 2 Voltage in 100 millivolts 0 1 mV Millivolt increments SNVT_lev_percent 163 84 163 83 81 2 Percent value in 0 005 or 50 ppm 0 005 increments with prefix SNVT_pwr_fact 1 0 1 0 0 00005 98 2 Power factor in 0 00005 increments SNVT_sound_db 327 68 327 67 dB 33 2 Sound in 1 100 dB 0 01 dB increments 8 3 1 6 Special cases with a limited number range SNVT_angle_deg 359 98 360 00 deg 104 2 Angle indication in 0 02 deg 1 50 deg increments SNVT_temp_p 273 17 327 66 C 105 2 Temperature in 0 01 C 1 100 C increments without Offset 8 3 1 7 Special case with Offset SNVT_temp 274 6 279 5 C 39 2 Temperature in 1 10 0 1 C C with Offset of 274 C maco WAGO TOPLON PRIO 8 3 1 8 Special types SNVT Details 141 The most important SNVTs WAGO TOPLON PRIO SNVT_address 0x4000 OxF1FF 114 2 Hardware Addres
58. Connected to column A small button appears on the right hand side of the table cell Click on this button A selection menu appears containing all available NVIs To select the desired NVIs use the scroll bar to move up and down the selection menu and click on the desired NVI A window opens showing the SNVT and if applicable the elements of this SNVT of the selected NVI Click on the SNVT or on a desired element of the SNVT in the displayed directory tree structure then click on the OK button A window opens in which you can enter a default ON value Enter the desired ON value and click on the OK button A window opens in which you can enter a default OFF value Enter the desired OFF value and click on the OK button The window closes and your settings are displayed in the table To change individual settings click on the corresponding table cell you wish to change A small button appears on the right hand side of the table cell Click on this button A window opens in which you can make the desired setting To enter a default TimeOut Preferred State click on the correspoinding cell of the TimeOut Preferred State table A small button appears on the right hand side of the table cell Click on this button A selection menu appears containing the possible settings Select the desired preferred state To enter a default NVI assessment click on the corresponding cell in the NVI assessm
59. IO Start 17 TOPLON PRIO Start Fig 1 WAGO TOPLON PRIO start mask g912353d Four buttons are arranged in the start mask bottom section START The first button from the left is the Start button ral The second button is the Register button serving the entry into the registration register of your PC ral The third button is the De Registration button intended to cancel the registered entry in the registration register of your PC The fourth button on the right hand side is the Exit button Click on this button if you wish to close TOPLON PRIO 2 Click on the start button A window appears showing a list of all networks available in your PC 3 From this list select the network containing the fieldbus coupler that you wish to configure 4 Double click on the name of this network Or Mark the selection by clicking and confirm with OK Another window showing a list appears This list contains all sub systems available in the network 5 From this list select the sub system containing the fieldbus coupler that you wish to configure 6 Double click on the name of this sub system Note gt We recommend to always select the sub system ALL knowing that sub systems below sub system 1 are not shown Another windows appears with a list This list contains all nodes available in this sub system 7 From this list select the node that you wish to configure 8 Double click on the name of this node Now
60. Index 163 The most important SNVTs N Network yanable ericeira 116 158 Network Management Tool Software sssssssssesseeseserererererererere 16 Network management toolsoftware 00 cece 158 NeuroniD oee neers 118 158 Node ODI CCE sera RRO 127 O E EAE EEE AE R E EEEE 18 37 43 REE A 115 Re E E A E E eer 18 18 43 156 ONLNE erae E E ENE 20 37 115 159 ONN o A E A N 18 43 Optional network variables s esesesssessssserereesrererererererrrenrnns 128 P Print review symbol bar Problem remedy R Remote agnosis ives eeno nanona 116 S SENSOLOD SCH Mi vevscssesassecsenasvscessesesceasensos Es KEE EKE EEA SNV T evap State noieses n E eaa e TEE ES TATA SNVT_occupancy ad INV Ee OV ORT OG nuien E SNV EPS Otis 2 nn e a Eae EIE EEr SNVT_scene 4 DNV SCORE Gf onnie a A EEA ERNE ONV TSO tine sce ne a E SEE SNVT_state SNVT_switch SNVT_telcom SNVT_trans_table SNVT_zerospan ais PSC CAL ON eie e OaE EEEIEE Supply module Internal Systeri REEE 160 SYM Feige eerie diTi NE e TE E E iE 21 88 119 Symbol bar 37 39 43 46 116
61. K Click on this button if you wish to apply your configuration settings The dialog window of the software configuration will then close ae Button APPLY Click on this button if you wish to apply your configuration settings The dialog window remains open for further settings Button UPDATE Click on this button to load the configuration settings from coupler to the plug in Attention All previous configuration settings are overwritten by a configuration loaded down from the node When the NVIs or NVOs group is selected a fourth button will appear in the right hand bar Button NV DETAILS Details Click on this button if you wish to open the SNVT Details window in which you obtain detailed information on the Standard network variables type just selected e The status bar permanently shows you the current memory space available Depending on the SNVT length each Standard network variables type connected by you occupies part of the 4 kByte memory space Note gt Once the maximum utilization of the memory space is reached due to multiple connection of SNVTs having a complex structure such as e g SNVT_str_asc with a length of 31 bytes no further SNVTs can be connected WAGO WAGO TOPLON PRIO Configuration 49 Software Configuration 4 3 2 Setting the NVs for Couplers and Controllers The settings of the network variables for a fieldbus coupler and a fieldbus controller have to be identi
62. NSI IEEE 754 float SNVT_sound_db_f 1E38 1E38 dB 61 4 Sound in dB ANSI IEEE 754 float SNVT_speed_f 1E38 LE38 m s 62 4 Speed in m s ANSI IEEE 754 float SNVT_temp_f 273 17 E38 C 63 4 Temperature in C ANSI IEEE 754 float SNVT_time_f 0 1E38 sec 64 4 Time in seconds ANSI IEEE 754 float SNVT_vol f 0 1E38 1 65 4 Volume in liters ANSI IEEE 754 float SNVT_volt_f 1E38 E38 volts 66 4 Voltage in Volt ANSI IEEE 754 float 8 3 1 2 Simple linear SNVT with a number range of 0 65535 Designation Area ee Bytes Use SNVT_btu_kilo 0 65 535 kilo btu 5 2 Thermal energy in kilo btu SNVT_btu_mega 0 65 535 mega btu 6 2 Thermal energy in mega btu SNVT_count 0 65 535 counts 1 count 8 2 Counter reading with positive numbers SNVT_elec_kwh 0 65 535 kilowatt hour 113 2 Electrical energy in kWh 1 kWh SNVT_lux 0 65 535 lux 1 lux 79 2 Brightness in Lux SNVT_ppm 0 65 535 ppm 29 2 Portions in per thousand SNVT_rpm 0 65 534 102 2 Revolutions per minute revolutions minute 1 rpm WAGO TOPLON PRIO maco 137 138 SNVT Details The most important SNVTs 8 3 1 3 Simple linear SNVT with a number range of 32768 32767 pascals 1 Pa SNVT_count_inc 32 768 32 767 counts 9 2 Counter reading with 1 count positive and negative numbers SNVT_press_p 32 768 32 766 113 2 Pressure in Pascal
63. O TOPLON PRIO 70 Configuration Software Configuration e Column 3 Connected to In this column you can connect the desired network input variable to each digital output for communication via the network To this effect all NVIs available to you on the basis of your device template selection are listed in a selection menu The attendant SNVT is stated in brackets for each NVI No default NVI is connected Note gt You can define the SNVTs for the network input variables in the settings of the NVIs column Type e Column 4 Element In this column you can connect to the corresponding digital output a specific element of the SNVT of the selected NVI To this effect all elements of the connected SNVT are available to you in the SNVT details window which is automatically polled No default element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure e Column 5 ON value This column allows you to define an ON value for the desired digital outputs The digital output is activated as soon as the value of the connected network input variable coincides with the defined ON value The top limit value of the validity range of the SNVTs or of the SNVT element is proposed as a default value e Column 6 OFF value This column allows you to define an OFF value for the desired digital outputs The digital output is de activated as soon as the value of the connected
64. TimeOut preferred state following a reset 4 3 2 10 How to set the NVs l 2 Select the desired collective variable that you wish to set To set a MinSendTime time for the network output collective variables nvo di outpa and nvo _do_outpa click on the corresponding cell in the MinSendTime column and enter the desired time To enter a MaxSendTime time for the network output collective variables nvo di outpa and nvo _do_outpa click on the corresponding cell in the MaxSendTime column and enter the desired time To enter a TimeOut time for the network input collective variable nvi i _inpa click on the corresponding cell in the TimeOut monitoring column and enter the desired time To define the TimeOut Preferred State enter the desired preferred state for each digital output or for each Boolean output variable connected to the network input collective variable nvi _i_inpa Ensure that the input sequence is identical to the sequence of the connected outputs To activate the function preferred state after Reset click into the corresponding control box in the Preferred State after Reset column to apply a tick Click on the Apply button in the right hand bar WAGO TOPLON PRIO maco 66 e Configuration Software Configuration 4 3 3 Setting the Remote I Os only for Coupler You can use the Remote I O function with a coupler as a head station of the fieldbus node The Remote I O function offers you the direc
65. a selection menu The attendant SNVT for each NVI is indicated in brackets No default NVI is connected Note gt You can define the SNVTs for the network input variables in the settings of the NVIs column Define type Column 4 Element In this column you can connect a specific element of the SNVT of the selected NVI to the corresponding Boolean output variable For this purpose all elements of the connected are available to you in the SNVT details window that is automatically polled No default element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure Column 5 ON value In this column you have the possibility to define an ON value for the desired Boolean output variables The Boolean output variable is activated as soon as the value of the connected network input variable coincides with the defined ON value As a default value the top limit value of the validity range of the SNVT or of the SNVT element is proposed Column 6 OFF value In this column you have the possibility to define an OFF value for the desired Boolean output variables The Boolean output variable is de activated as soon as the value of the connected network input variable coincides with the defined OFF value As a default value the bottom limit value of the validity range of the SNVT or of the SNVT element is proposed Column 7 TimeOut Preffered State This column allows you to
66. ails Bool_OUTs WOOO OOOO OOOO oO oO 0 0 e Column 1 NVO Nr In the column NVO No all network output variables available to you for your network communication are listed numbered The number of network output variables is dependent on the selection of a device template No settings can be made in this column e Column 2 Network variable In this column you can enter the desired name for each network output variable e Column 3 Type In the Type column each network output variable is connected to a desired type For this purpose all SNVTs from the SNVT master list are available to you in a selection menu The standard setting for the network output variables is SNVT_str_asc as this network variables type occupies the majority of memory space given its length of 31 bytes e Column 4 SNVT ID Note A N The column SNVT ID is mapped out in the Standard user level The SNVT index is automatically displayed according to the SNVT selected Indicating the SNVT ID allows you to quickly find the desired information on the standard network variables type in the SNVT Master list No settings can be made in this column maco WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 59 Software Configuration Column 5 Length in Bytes Attention The column Length in bytes is mapped out in the Standard user level The SNVT length is automa
67. apped out in the Standard user level In this column you can activate the use of the default mask for the desired network output variables The default mask defines the values which are additionally to be transmitted for the non connected values of an SNVT Default setting The use of the default mask is de activated Column 8 Default value Attention The column Default value is mapped out in the Standard user level In this column you can define the default values for the default mask You can also enter a default setting for the values of all SNVT elements that are not connected to the analog input Note Default values can only be defined when the Use Default mask is activated Example SNVT_switch You have assigned the analog input type SNVT_switch to the element value For the not connected element status you defined a default value e g status 1 This setting is useful because many LON devices evaluate the value of status Independent of the value for the element value the value for the element status 1 will ever be transmitted via the network output variable A connected device recognizes that the state of SNVT_ switch is active 1 and then it can evaluate the transmitted value for the element value WAGO TOPLON PRIO Configuration 77 Software Configuration 4 3 3 6 How to set the Als 1 2 10 In column AI No select the desired analog input you wish to set To nam
68. as in the graphic at the desired position following modules automatically move one position down 7 Proceed in the same way for all further bus modules 4 2 3 2 How to remove a bus module 1 From the Now list select the bus module type that you wish to remove and click on its bus module description 2 To be able to remove the bus module type from the Now list click on the bottom arrow between the window sections Selection and Now The removed bus module has now disappeared from the graphic presentation and all following bus modules automatically move one position up Note If no bus module is marked in the list always the last bus module before the end module will be automatically removed WAGO WAGO TOPLON PRIO Configuration 45 Hardware Configuration Or 3 Move the mouse pointer in the graphic display of the node to the bus module that you wish to remove or to its bus module description in the Now list 4 Click on the right hand mouse key The following menu window appears Delete module E Specify module 5 Click on the menu point Remove module Now the removed bus module has disappeared from the graphic display and all following bus modules move automatically up one position 4 2 4 End Hardware Configuration 4 2 4 1 How to end the Hardware Configuration 1 To be able to end the hardware configuration click on the button Close Continue in the right hand bar WAGO TOPLON PRIO
69. available for the configuration data These variables short NCIs are stored in the EEPROM of the neuron chip and not like the nvis in the volatile RAM In the device templates PRIO 02 the last 5 nvis are prepared as NCIs Attention The electron write capability of the EEPROM is non destructive up to 10 000 times WAGO TOPLON PRIO Configuration 87 Software Configuration 4 3 4 1 How to import the data of IEC 61131 variables 1 In the menu bar of the main mask click on the menu point WAGO IO PRO Select a SYM file The Selection of a IEC 61131 Application window opens Selection of a SYM file node1 maks Suchen in WAGO TOPLON PRIO cx Bin I Templates Dateiname EENAA Dateityp sym sym x Abbrechen P Mit Schreibschutz offnen 2 In this window select the folder containing the desired SYM file Note gt The SYM file can be found in the same directory in which you have stored your IEC 61131 project created with WAGO JO PRO unless you have made different settings 3 Click on the desired SYM file to select same then click on the Open button The window closes again 4 Open the dialog window of the software configuration via the Configuration Software menu or in the symbol bar via the Configuration Software symbol The data name and address of the selected SYM file is now available for your software configuration in the groups Boolean and Other input and output varia
70. bles WAGO TOPLON PRIO waco 88 e Configuration Software Configuration 4 3 4 2 Boolean input variable To define the settings for the Boolean input variables select the group Bool INs in the left hand bar Now the table in which you can make the desired Bool_IN settings appears in the center section of the dialog window The user level selected in the options dialog is not relevant to set the Bool_INs The display contains six columns for both user levels Standard and Expert Expert user level Name addtess Connectedto Element ONVaue oFFvaus E i i E Apply Refresh 2 Bool_INs Bool_OUTs Var_INs i va outhi a za e Column 1 Name The Name column names all Boolean input variables that you have declared in your IEC 61131 application They are available after importing the SYM file No settings are possible in this column e Column 2 Address The Address column lists all Boolean input variables addresses Also these are available after importing the SYM file The addresses cannot be changed maco WAGO TOPLON PRIO Configuration 89 Software Configuration e Column 3 Connected to This column allows to connect a desired network output variable to each Boolean input variable for the communication via the network For this purpose all NVOs available to you on the basis of your device temp
71. button When clicking on that button SCADA tool must send the values object_id 65000 project request 15 RQ PROGRAM to the nvi_request in the Lonmark Object Toplon Prio Through this command all the 128x4 Bytes i e all CPs are transmitted to the C165 The same applies to changes that are carried out via the network management tool 9 In order to assign an initialization value to the configuration variable click on the appropriate cell of the column Value and enter the name 10 Proceed the same for any other configuration variable 11 Click on the button Accept in order to transfer the IEC 61131 configuration settings to the LNS data base as well as to the connected node The dialog window IEC 61131 Configuration settings remains open for further settings WAGO TOPLON PRIO wWAGOo 112 e Configuration Software Configuration 4 3 5 2 How to assign configuration parameters using a WTC file Before you can assign values to the configuration variables you need to compile the variables in a WAGO IO PRO 32 Watch list and save it with a wtc file extension These variables are declared but unadressed variables It is essential to declare the configuration variables as Retain variables unless they are bound with other nodes in the network This ensures that the unbound variables will keep their values even after a power failure of the controller Do not enter addressed variables into the watch list These variables are not
72. cal The following groups can be set Node NVs NVIs NVOs and NVs The number of changeable network variables depends on the selected device template 4 3 2 1 Node NVs Attention The group Node NVs in the Standard user level is mapped out In the Node NVs group only the fixed variable nvoStatus is displayed This variable belongs to a mandatory LonMark object Node Object the variable nvoStatus is however irrelevant for the coupler function Note gt For relevant detailed information please refer to chapter Device template details Expert user level 710 Configuration Subsystem_1 D i tatu Apply Refresh Bool_INs Bool_OUTs Var_INs vostatus 2 WAGO TOPLON PRIO MAGO 50 Configuration Software Configuration e Column 1 Network variable The name of the network output variable nvoStatus is entered in column Network variable This name cannot be changed e Column 2 Type In the Type column appears the Standard network variables type of nvoStatus The variable is of the SNVT_obj_ status type The nvoStatus type cannot be changed e Column 3 MaxSendTime s In this column you have the possibility of entering a time MaxSendTime in seconds for the network output variable of nvoStatus Each network output variable with a MaxSendTime default time will always be transmitted after the set time at the latest irrespective of whether or not the value was changed As standar
73. can define the SNVTs for the network input variables in the settings of the NVIs column Type Column 4 Element This column allows you to connect a specific element of the SNVT of the selected NVI to the corresponding other output variable For this purpose all elements of the connected SNVT are available in the automatically polled SNVT details window No default element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure Column 5 Scaling You can enter a default top and bottom limit for each other output variable and for the attendant network input variable and thereby carry out a linear scaling When entering the desired limit values take the resolution of the standard network variables type of the connected network variable into consideration You determine the limit values for the network output variable with the division of the desired area by the resolution of the SNVT NV limit area Desired area Resolution of the SNVTs Attention SNVT_temp is a special case An offset of 2740 C must be added to the computed limit area of the NV for SNVT_temp WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 103 Software Configuration As standard the limits of the output variable comply with the data area of the output variables If you wish to use the entire variables area it can remain unchanged Note gt For time optimization is recommen
74. configuration and of the function with regard to contents software configuration of a node Configuration properties Refer to Configuration properties Configuration offline With an offline configuration all settings and changes of the node configuration are only registered in the LNS data base but not in the physically present hardware The new configuration is only taken over into the physical hardware once a change to online has been made Configuration online maco With an online configuration all settings and changes of the node configuration in the LNS data base and also in the physically existing hardware are registered WAGO TOPLON PRIO Front end Coupler LNS LNS data base LocationID LON LON node LonWorks Glossary 157 The most important SNVTs The front end of a WAGO LON fieldbus node forms the link between the LON fieldbus and the field area with its I O functions All required control tasks carried out to ensure the perfect operation of these I O functions are carried out either by the coupler or by the controller As opposed to the coupler the controller is equipped with an additional PLC function and can be programmed by the user in accordance with the international standard for the programming of controls IEC 61131 3 in all 5 languages AWL KOP FUP ST and AS Refer to front head LNS LonWorks Network Service is a network operating system for LonWorks networks Al
75. d the default value is 0 0 s i e MaxSendTime is de activated Attention To preclude excessive load on the network we recommend to select MaxSendTime gt 2 s 4 3 2 2 How to set a Node NV 1 Can only be set in the Expert user level a To be able to enter a MaxSendTime time click in column MaxSendTime on the corresponding cell and enter the desired time 2 In the right hand bar click on the Apply button WAGO WAGO TOPLON PRIO 4 3 2 3 NVIs Configuration 51 Software Configuration To set the network input variables select the NVIs group in the left hand bar Now the table is displayed in the middle of the dialog window for you to proceed with your desired NVI settings If the Standard user level is selected in the options dialog four columns appear If you have selected the Expert user level a further three column will be mapped in The description of the user surface includes the more comprehensive Expert user level The decimation for the Standard user level is clearly pointed out Note In this group you can copy a ready made NVI setting and transfer it to any other NVIs Standard user level guration Subsystem_1 Bool _INs Bool_OUTs Var_OUTs WAGO TOPLON PRIO GHVT tint 31 Be Fipply SNYT_strase 31 Bytes SNVT_strasc 31 Bytes le 18 19 SNYT_strase 31 Bytes SNVT_strase 31 Bytes Refresh Details SNVT_str_asc 31 Byt
76. d adopted across manufacturers is guaranteed at any time You can also transmit digital signals in a collective variable per direction In addition you provide the network variables for instance with MaxSendTime as the heartbeat for harmonization purposes with the network behavior with MinSendTime and SendOnDelta to limit the transmission frequency as well as with SendOnReset and up to software version 1 00 0019 PollOnReset to update the values in the node The internal data linking within the fieldbus node programmable with IEC 61131 allows you to use extensive PLC functions without the need of having programming knowledge in Neuron C WAGO TOPLON PRIO Review 11 About WAGO TOPLON PRIO Remote capability also allows you to install a project from different PC stations With WAGO TOPLON PRIO you can very easily create your own application across disciplines of almost unlimited variation possibilities 1 2 4 Key data For the controls the building automation software WAGO TOPLON PRIO has been designed with a maximum number of bus modules and channels Overall 248 digital or 124 analog inputs and outputs are supported per LON node allowing you to freely select a mixture of these data points inputs and outputs Data exchange of a LON node with other nodes is made via a network variable To be able to perform this data exchange you can connect to the data points a total of 52 free network variables Furthermore you can
77. ded to accomplish the scaling already in the IEC 61131 3 program and to select the same upper and lower limits in the dialog window for the variable scaling in TOPLON PRIO With same limits the values are simply copied from input to the output variable and a conversion is unnecessarily Scaling of analog values m High limits High limit of the variable corresponds to NY lt gt 1E 38 Low limits Low limit of the variable corresponds to NY 1E 38 lt gt 1E 38 Info When assigning different numbers to i the upper limiting values and to the ann lower limiting values the calculation of me the final figure might be imprecise To avoid this choose one number for both the lower limiting values and another number for both the upper limiting values Would you like to keep the current values Jv Diese Nachricht inmer anzeigen Example of Scaling 1 SNVT_switch You wish to edit for example a brightness value in the range of 5 70 by means of an output variable You have connected a network input variable of type SNVT_switch element value resolution 0 5 to the input variable To establish the NV limits divide the desired range limits 5 and 70 by the SNVTs resolution of 0 5 For the bottom limit you get 5 0 5 10 and for the top limit 70 0 5 140 You obtain the following values to be entered in the dialog window Bottom limit of the
78. dialog window is a bar with the buttons Close Continue and Print The set hardware configuration is applied by clicking on the Close Continue button and the dialog window of the hardware configuration closed Click on the Print button to open the print preview of the bus module configuration Further information For more information to this subject please refer to chapter Print out diagnosis possibilities Documentation Printing data WAGO TOPLON PRIO Configuration 41 Hardware Configuration 4 2 2 Online hardware configuration If you start TOPLON PRIO directly in a physically present LON node selected by you you can configure the hardware online Thereby the physically existing node hardware is automatically checked By doing so TOPLON PRIO detects independently whether the head end is a fieldbus coupler or a fieldbus controller and which bus modules and how many of them are connected The detected bus module constellation is graphically displayed in the dialog window of the hardware configuration o nodel Subsystem_1 2 Channel Digital Input Filter 0 2ms 2 Channel Digital Input Filter 3 0ms 4 Channel Digital Input 2 Conductor Co 4 Channel Digital Input 2 Conductor Co 2 Channel Analog Input 0 20m4 2 Channel Analog Input 4 20m4 2 Channel Analog Input 10V 2 Channel Input PT 100 RTD 2 Channel Analog Input Temp 0 20m4 2 Channel Analog Input 0 20mA be lia on of
79. e 1 Mandatory Network Variables 10 nvo oou a Fig 24 Open Loop Sensor Object for DOs with fixed NV g912309e 6 3 7 Open Loop Actuator Object with fixed NV for DOs Bool_OUTs Var_OUTs 7 Open Loop Actuator Object N Type 3 nvi_Linpa Mandatory 10 UNVT_dio Network Variables Fig 25 Open Loop Actuator Object with fixed NV 9912307e 6 3 8 Controller Object C Controller Object Type 5 nod Na nol ava UCPT_iec Fig 26 Controller Object g912308e WAGO TOPLON PRIO wWAGOo 132 e Remote capability Remote Full Client 7 Remote capability The latest versions of TOPLON PRIO Version 1 500 0000 and LNS Version 3 gt Sevice pack 5 have remote capability Remote capability means that TOPLON PRIO will run on a PC that has no LNS server installed only with a Network Management Tool This PC will then act as a Remote Client which via a remote access server can access a device Remote capability also allows the installation of a device from several clients The Remote Client can be opened and used either as a Full Client or as a Lightweight Client Attention APB files must be stored on the server and updated if necessary For the download of APB files the client will always access the directory of the server Therefore it is not possible to download APB files from clients Attention A Hex download is possible with a Ligh
80. e if equal with default mask if not value 0 you can define that the network input variable value for the connected SNVT element is only conditionally to be put out to the output variable i e only if all values which the NVI transmits for the unconnected SNVT elements coin cide with the values that you have defined in the Default Mask beforehand If only one of these values does not agree the value of the analog output is to be set to 0 inactive Default setting Write value Example You have connected the element value to your output variable of a network input variable type SNVT_ switch You select e g the setting Write value if equal with default mask if not value 0 Now in the opening dialog window Default_Mask you define the value 1 for the unconnected element state This definition can also be made in the Default Mask column The values also transmitted for element value 1 are ignored as long as the network input variable does not transmit the value element state The output variable remains on value 0 As soon as the network input variable transmits the value 1 for the element state the value for the element state is set to the output variable e Column 9 Default mask Attention The column Default Mask is mapped out in the Standard user level WAGO TOPLON PRIO maco 106 Configuration Software Configuration maco In this column you have the possibility to define a default
81. e is mapped out in the Standard user level In this column you can define the TimeOut value for the SNVT element that is connected to the corresponding output variable Note gt A TimeOut value can only be defined when Use of TimeOut is activated e Column 8 Default behavior Attention The column Default behavior is mapped out in the Standard user level WAGO WAGO TOPLON PRIO Configuration 105 Software Configuration In this column you can enter a desired default behavior for each network input variable connected to an output variable Here you can select between Write value Write value if equal with default mask if not no change and Write value if equal with default mask if not value 0 With Write value you can define that the network input variable value for the connected SNVT element is always to be put out on the output variable The values for the unconnected SNVT elements are not taken into account With Write value if equal with default mask if not no change you can define that the network input variable value for the connected SNVT element is only conditionally to be put out on the output variable i e only if all values that NVI transmits for the unconnected SNVT elements coincide with those values that you have defined in the Default Mask column beforehand If only one of these values does not agree the value of the output variable is to be maintained With Write valu
82. e the analog input according to your requirements enter any name for the corresponding input in the Name column To connect a network output variable to the analog input click on the corresponding cell in the Connected to column A small button appears on the right hand side in the table cell Click on this button A selection menu appears showing all NVOs available To select the desired NVO use the scroll bar to move up or down the selection menu and click on the desired NVO A window opens displaying the SNVT and if applicable the elements of this SNVT of the selected NVO Click on the SNVT or on a desired element of the SNVT in the displayed directory tree structure then click on the OK button The window Scaling the analog values appears in which you can enter the bottom and the top limits of the analog module value of the network variable as default values Enter the desired limit values and click on the OK button The window is closed and your settings are displayed in the table To change individual settings click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button A window opens for you to proceed with the desired setting To be able to enter a default value for SendOnDelta click in the corresponding cell of the SendOnDelta column and enter the desired value in Can only be set in the Exper
83. efault element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure WAGO TOPLON PRIO maco 80 e Configuration Software Configuration e Column 5 Scaling You have the possibility to enter a top or a bottom limit for each analog output and for the attendant network input variable In this manner linear scaling is possible When entering the desired limit values take the resolution of the standard network variable type of the attendant network variable into consideration You determine the limit values for the network output variable with the division of the desired area by the resolution of the SNVT NV limit area Desired area Resolution of the SNVTs Attention SNVT_temp is a special case An offset of 2740 C must be added to the computed limit area of the NV for SNVT_temp As standard the limits of the values in brackets comply with the data area of the module If you wish to use the entire module area they can remain unchanged Example 1 SNVT_ switch You wish to record for example a brightness value in the range of 5 70 with an analog input module range 4 mA 20 mA You have connected a network output variable of the type SNVT_switch Element value resolution 0 5 to the analog input To establish the NV limits divide the desired range limits 5 and 70 by the SNVTs resolution of 0 5 For the bottom limit you get 5 0 5 10 and
84. ent table A small button appears on the right hand side of the table cell Click on this button A selection menu appears containing the possible settings Select the desired setting In the right hand bar click on the Apply button WAGO TOPLON PRIO Configuration 95 Software Configuration 4 3 4 6 Other input variables To define the settings for other input variables select the Var_INs group in the left hand bar The table permitting you to enter your desired Var_IN settings appears in the center section of the dialog window If the Standard user level is selected in the options dialog you are shown a total of six columns If you have selected the Expert user level two additional columns are mapped in The description of the operating surface encompasses the more comprehensive Expert user level The decimation for the Standard user level is clearly pointed out Expert user level Standard user level 1 10 Configuration Subsystem_1 x i pyly Bool_INs Refresh Var_OUTs WAGO TOPLON PRIO MAGO 96 Configuration Software Configuration maco Column 1 Name The Name column names all other input variables that you have declared in your IEC 61131 application These are available after the import of the SYM file No settings are possible in this column Column 2 Addres
85. er a desired default behavior to the connected SNVT as a default click on the corresponding cell in the Default WAGO TOPLON PRIO Configuration 85 Software Configuration behavior column A small button appears on the right hand side of the table cell Click on this button A selection menu appears offering you three possible settings e Click on the desired setting The Default Mask window appears Enter the desired default value and click on the OK button The window is closed and your settings are displayed in the table c To be able to change individual settings of the default values click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button The Default_ Mask window opens for you to enter your changes 10 In the right hand bar click on the Apply button WAGO TOPLON PRIO 86 e Configuration Software Configuration 4 3 4 Setting the Prog Remote I Os for Controller maco With a controller as a head end of your fieldbus node you can use the programmable remote I O function The programmable remote I O function offers you the direct representation of the variable declared by you according to IEC 61131 on the network variable This allows the declaration of variables containing complex linking of digital and analog input and output values The previously programmed IEC 61131 application serves as the basis for the setting of
86. er a value SendOnDelta in SendOnDelta defines the percentage 0 to 100 of maximum by which the value of the Other input variables has to change to have the input variables value re updated and put out to the network The SendOnDelta default value is 0 i e the value of the input variable will be updated following the smallest change Column 7 Use Default Mask Attention The column Use Default Mask is mapped out in the Standard user level In this column you can activate the use of the default mask for the desired network variables The default mask defines the values which are additionally to be transmitted for the non connected elements of an SNVT Default setting The use of the default mask is de activated Column 8 Default value Attention The column Default value is mapped out in the Standard user level In this column you can define the default values for the default mask At the same time you can enter default values of all SNVT elements which cannot be connected to other input variables Note Default values can only be defined when the Use Default mask is activated WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 99 Software Configuration Example SNVT_switch You have assigned the analog input type SNVT_switch to the element value For the not connected element status you defined a default value e g status 1 This setting is useful because many LON devices evaluate t
87. ere to export a configuration a The Find folder window can be opened using the Folder S symbol WAGO TOPLON PRIO maco 26 View Menu bar Ordner suchen 21x Choose the folder for the configuration files io amp 3 Diskette A C 6 D amp E 2 Sys auf Wago_minden F elektro auf wWago_minden Wol2 G 2 Vol4 auf Wago_minden H Elec mi auf Wago_minden Vol1 1 vertrie Klicktel auf Wago_minden Vol4 Klicktel c 2 Voll auf Wago_minden K 1softwar auf Wago_minden Sys 0 Itranste auf Wago_minden Vol1 T 2 Abgs auf Wago_minden Voll 1transfe411 S aren are vn Abbrechen Fig 14 Find folder window g912349e 0 A A E EE The Find folder window allows you to browse in the drives and directories of your PC and to select a required folder As standard there is no default folder maco WAGO TOPLON PRIO View 27 Menu bar 3 2 2 4 User level register p Options Subsystem_1 User level ser leve Cancel Fig 15 User level register g912350e Standard setting Standard Indicates the information level on which TOPLON PRIO is to be displayed The TOPLON PRIO dialog windows are available in an expert view version and in a standard view version The expert view version contains extensive setting possibilities and useful informati
88. es 52 Configuration Software Configuration Expert user level JNwino Networkvariable Tyne SNVTID_ Length inbytes __ TimeOut s Dei nvi00 3 A 0 0 SNVT_strase 31 Byte 31 SNVT stase 31 Bytes E 3i SNYT_str_asc 31 Bytes 36 31 p SNVT_str_int 31 Bytes 37 31 I Apply SNVT_strasc 31 Bytes 36 31 f TSNVT_stt_ase 31 Bytes 36 i a SNVT_strasc 31 Bytes 36 I Refresh SNVT_stt_asc 31 Bytes 36 SNVT_stasc 31 Bytes 36 SNVT_st_asc 31 Byles 36 SNVT_st_asc 31 Bytes 36 SNVT_stt_ase 31 Bytes 38 SNVT_stase 31 Bytes 36 _TSNVT_stt_ase 31 Bytes 36 SNVT_st_ase 31 Bytes 36 SNVT_stt_asc 1 Bytes 36 SNVT_strase 31 Bytes 36 SNVT_stt_asc 31 Bytes 38 SNVT_strase 31 Bytes 36 SNVT_sti_aso 31 Bytes 36 SNYT_strase 31 Bytes 36 SNVT_st_ase 31 Bytes 36 N Details Bool_INs Bool_OUTs e Column 1 NVI No All network input variables available for your network communication are listed by their numbers in column NVI No The number of network input variables depends on the selection from the device template No settings can be made in this column e Column 2 Network variable In this column you can enter a name for each network input variable Note The last 5 nvis in the device templates PRIO 02 are prepared as NCIs These NCIs Network input variables for the confi
89. eseceseceeeeeeseeestecnseeesees 5 1 1 2 How to use this tanta sss ssccatasszsssesscsenssash cndssacasacsntansdestaassantionedeecias 5 1 1 3 Structure and compilation of this manual sssseeseeseeseesseeseeseesee 6 1 1 4 Symbols and WAL KINDS 52 4 srnec nnie aa aE 7 1 1 5 Representation of the number systems cccceseceeseesseeeteceteeeeees 7 1 1 6 ADDIE VISTIONS i552i0cdssnssveanasacivansnaceseaniasecsitevissulaniieaaniacecmmniucaa sees 8 12 About WAGO TOPLON PRIO vic ccnsnsisnnneciouannekcnionns 9 1 2 1 What is WAGO TOPLON PRIO scscascvessseuncavskarsecsdauendeddassnoesesans 9 1 2 2 Scope of validity cas cutesasacepsetenceacsedneyeawneseusnaaviver coceneean reas nustanGecatnes 9 1 2 3 What are the possibilities WAGO TOPLON PRIO offers 10 1 2 4 Key d tassnsrnssssninannen nae a NRE 11 PEE E A E E EE EEEE TA 12 2 1 System prerequisites seirinin E E E ER NE E 12 22 Jastall tioN scschicesiewsstcasdsmnanraevsunccestunsavervaseseasmunaievadenceigiseveneanssagunis 13 23 TOPLON PRIO Start jssccasssaresecaucesnsatenecstapesusssetcheaveneasecetersienssneesnasees 14 2 3 2 Starting TOPLON PRO sicissssssccthvastesptishosasemeuacnmauinca 16 2 3 3 Ontiet 7 OMNE MOLE rsin T 18 3 VIEW emicciiccmanninniimnnnnmnnnnnd naam 19 3 1 Maim TNS iss siecac eas snnne escent eee 19 32 Men bap esisiini irasi an EE a EEEE REENE 20 322 Options ALS cca sncncsvicnsencass perce raarexcinannsiauecacexainanrns oeateneeesomaennces 23 3 3 Sy
90. esponding information in the software configuration using the right hand mouse key The following menu is displayed Click on the Print data record menu point The print review for the software configuration appears 110 Comfequration Subsystem 1 SS AOD O Parsee E Piet Oe Device node Location 000000 Project nodet 13 11 01 164 58 Prog D 90007005018A0422 NeuromlD 00 00 00 00 00 00 SMVT_st_asc 37 Bytes SAVT st asc 35 Stes SANVI Aae JI Bytes SNVT a_a 31 Bytes ENVIT s_at JI Stes SMVT_st_aec 31 Bytes SMVT_s_ace 31 Bytes SAVT_st_asc 31 Bytes Aase 31 Bytes PRERE ali Rl Rei SNVT_st_ace 33 Bytes moe N Bytes SMVT_st_ase 31 Bytes a_a 33 Bytes SMVT_st_aec 37 Bytes j maco WAGO TOPLON PRIO Diagnosis possibilities 125 How to overcome a problem 5 5 How to overcome a problem If errors or problems occur during operation with WAGO TOPLON PRIO terminate the Plug In and repeat the previous action Should the error re occur it might be necessary to restart your PC If you cannot remedy the error yourself please note the error message and the process that has led to the problem and contact WAGO Kontakttechnik GmbH HansastraBe 27 D 32385 Minden Telefon 49 0 571 8 87 5 55 Telefax 49 0 571 8 87 85 55 o send an e mail to support wago com WAGO TOPLON PRIO wWAGOo 126 Device template details General information to dev
91. etwork lt 30 s In addition to the variables the individually connected type the SNVT ID and the SNVT format are listed Moreover you are displayed the NV for which a monitoring function is activated and the last column shows the value of the individual variable WAGO TOPLON PRIO Diagnosis possibilities 117 Browser You can make changes to the settings by clicking on the corresponding table cell in the columns SNVT format Monitoring and Value To display or to enter the network variables value you can select between the SNVT formats Standard RAW and RAW_HEX Example Network variable of type Typ SNVT_ switch Presentation in SNVT Format value state Standard corresponding to SNVT 47 5 0 RAW bytes displayed in decimal 95 0 RAW_HEX bytes displayed in hexadecimal 5F 0 In the Monitoring column you can select between No monitoring i e the NV is not monitored online Polled 0 1 s 0 2 s 0 3 s 0 4 s 0 5 s 1 0 s 2 0 s 5 0 s 10 0 s 30 0 s or 60 s i e the value of the NV is cyclically polled once the selected time has elapsed and Bound monitoring i e the value is polled for a change depending on the event Once you have entered a value in the value column and removed the mouse pointer from the table cell the corresponding network input variable automatically applies this value Attention Perform the entry of a value according to the selected SNVT format
92. fault values 4 When asked by the system restart your PC You can now start TOPLON PRIO WAGO TOPLON PRIO Note At the time of installing TOPLON PRIO also the online help will be installed on your PC to have it available from the very beginning exception the Beta version 14 Start TOPLON PRIO Start 2 3 TOPLON PRIO Start 2 3 1 1 TOPLON PRIO registration maco The plug in WAGO TOPLON PRIO has to be registered prior to being able to start it Registration of the plug in is performed in your network management tool software in which you have already created your project For registration select a device template for your network node This device template specifies the number of network input and network output variables available in your node for communication with other nodes in the network Gil Further information For a detailed description of the individual software operation please refer to the manual being part of your corresponding network management tool software The plug in TOPLON PRIO defines a total of 25 different device templates PRIO 00 52 01 PRIO 10 42 01 PRIO 20 32 01 PRIO 26 26 01 PRIO 32 20 01 PRIO 42 10 01 PRIO 52 00 01 7 PRIO Device templates version 0 1 These templates support the Configuration Properties CPs The CPs are input variables for configuration parameter values those should be changeable from the outside e g switching times target bei
93. for the top limit 70 0 5 140 You obtain the following values to be entered into the dialog window Bottom limit of the module value 0 corresponds to 10 in the NV and Top limit of the module value 32767 corresponds to 140 in the NV WAGO WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 81 Software Configuration Example 2 SNVT_temp You wish to record for example temperature values in the range of 40 C 75 C using an analog input module range 0 V 10 V You have connected the analog output to a network input variable of type SNVT_temp resolution 0 1 C Offset 2740 To establish the NV limits divide the desired range limits 40 C and 75 C by the 0 1 C resolution of the SNVTs You obtain the following values 400 and 750 SNVT_temp being a special case you have to take the offset into ac count and add 2740 to both values You obtain the following values to be entered into the dialog window Bottom limit of the module value 0 corresponds to 2340 in the NV and Top limit of the module value 32767 corresponds to 3440 in the NV Column 6 Use TimeOut Attention The column Use TimeOut is mapped out in the Standard user level In this column you can activate the function Use TimeOut for desired analog outputs When this function is activated for a desired analog output the correspondingly connected SNVT element is set to a defined TimeOut value Defau
94. guration data are non volatile because they are stord in the EEPROM of the neuron chip and not like the nvis in the volantile RAM Attention The electron write capability of the EEPROM is non destructive up to 10 000 times maco WAGO TOPLON PRIO Configuration 53 Software Configuration Column 3 Type In the Type column each network input variable is connected the desired type For this purpose all SNVTs from the SNVT master list are available in a selection menu The standard setting for the network input variable is SNVT_str_asc as this network variables type having a length of 31 bytes occupies the majority of the memory space Column 4 SNVT ID Attention ra The SNVT ID column is mapped out in the Standard user level The SNVT index appears automatically according to the selected SNVT The SNVT ID permits you to quickly find information on the standard network variables type in the SNVT Master list No settings can be made in this column Column 5 Length in Bytes Attention The column Length in Bytes is mapped out of the Standard user level The SNVT length appears automatically according to the selected SNVT No settings can be made in this column Column 6 TimeOut Monitoring s Attention The TimeOut Monitoring is mapped out in the Standard user level This column allows to enter a time for the TimeOut monitoring in seconds for the desired network input variables Each network input variable
95. he set time at the latest If the value of the collective variable is not updated once the set time has elapsed the attendant outputs are set to a defined preferential position preferred state The default setting has this function de activated Attention A N To avoid incorrect information we recommend to select a TimeOut time corresponding to 2 to 3 times the defined MaxSendTime of the connected network output collective variable nvo_do_outpa WAGO TOPLON PRIO Configuration 65 Software Configuration Note gt The preferred states for the attendant digital outputs or Boolean variables can be defined in the TimeOut Preferred State column e Column 6 TimeOut Preferred State This column allows you to define a TimeOut Preferred State for each connected digital output or for each Boolean output variable Each output with a default TimeOut Preferred State is automatically set to the selected position if the value is not updated with a defined TimeOut time This position is retained until a value is sent and assessed again via the network input collective variable nvi_i_inpa You can choose between 1 active or 0 inactive The default value for each output is 0 i e that all outputs are automatically inactivated in the event of a TimeOut e Column 7 Preferred State after Reset In this column you can define if the digital inputs and outputs or the Boolean input and output variables are to set to the pre defined
96. he value of status Independent of the value for the element value the value for the element status 1 will ever be transmitted via the network output variable A connected device recognizes that the state of SNVT_ switch is active 1 and then it can evaluate the transmitted value for the element value 100 Configuration Software Configuration 4 3 4 7 How to set the Var_INs 1 In column Name select the desired other input variable you wish to set 2 To connect a network output variable to the other input variable click on the corresponding cell in the Connected to column A small button appears on the right hand side of the table cell Click on this button A selection menu appears containing all available NVOs 3 To select the desired NVOs use the scroll bar to move up or down the selection menu and click on the desired NVO A window opens displaying the SNVT and if applicable the elements of this SNVT of the selected NVO ENS Click on the SNVT or on a desired element of the SNVT in the displayed directory tree structure then click on the OK button The window Scaling the analog values appears in which you can enter the bottom and top limits of the input variable and of the network output variable as default values 5 Enter the desired limit values and click on the OK button The window is closed and your settings are displayed in the table 6 To change individual settings click on the corres
97. ialog window In the software view click on the OK button to have your software configuration settings applied in the LNS data base and in the connected node Subsequently the dialog window of the software configuration is closed Click on the APPLY button to have your software configuration settings applied in the LNS data base and also directly in the connected node The dialog window of the software configuration remains open for further settings Click on the UPDATE button to load the configuration settings from coupler to the plug in 4 1 3 3 Apply IEC 61131 Configuration only for Controller maco For the application of the IEC 61131 configuration you can chose from four buttons located in the right hand bar of the dialog window Read out bg of Contsolles gt Click on the OK button to have your IEC 61131 configuration settings applied in the LNS data base Subsequently the dialog window of the IEC 61131 configuration is closed Click on the APPLY button to have your IEC 61131 configuration settings applied in the LNS data base and also directly in the connected node The dialog window of the IEC 61131 configuration remains open for further settings Click on the READ OUT OF CONTROLLER button to load the configuration settings from controller to the plug in Then values which are installed in an IEC 61131 3 software or directly changed via the RS 232 interface on the controller become snchro
98. ication number the so called NeuronID WAGO TOPLON PRIO Glossary 159 The most important SNVTs Node Object According to LonMark the node object is mandatory for nodes having more than one object and serves for the management of all objects The object type number 0 is firmly assigned to this node object With the aid of the mandatory network variables nviRequest type SNVT_obj_ request and nvoStatus type SNVT_obj_ status it monitors and influences the function of all objects in the network node Object An object is defined for each task in a network node These objects consist of a record of prescribed network variables mandatory network variables optional network variables and a record of configuration properties The use of objects with standard network variables types SNVTs forms the basis for interoperability The different LonMark object types are created by the entry of precise general information into a node such as node object sensor object controller object etc Object server LNS represents the network as a hierarchy of objects LNS providing an object orientated programming model it requires a so called object server OffLine In the offline mode all changes of the node configuration are registered only in the LNS data base but not in the physically existing hardware The new configuration is also taken over into the existing hardware upon a change into the OnLine mode Online In the OnLine
99. ice templates 6 Device template details 6 1 General information to device templates maco WAGO TOPLON PRIO provides 25 different device templates PRIO 00 52 01 PRIO 10 42 01 PRIO 20 32 01 PRIO 26 26 01 PRIO 32 20 01 PRIO 42 10 01 PRIO 52 00 01 RIO_00_52 RIO 20 32 RIO 26 26 RIO 32 20 RIO_52_00 PRIO 00 52 PRIO 20 32 PRIO 26 26 PRIO 32 20 PRIO 52 00 PRIO 26 26 0 1 RIO 26 26 PRIO 00 52 02 PRIO 10 42 02 PRIO 20 32 02 PRIO 26 26 02 PRIO 32 20 02 PRIO 42 10 02 All device templates have a total of more than 52 bindable NVs each having a length of 31 bytes The first number in the device template name indicates the number of network output variables the second digit indicates the number of network input variables WAGO TOPLON PRIO Device template details 127 Sum of network variables Examples Device template Number Type of available NVs PRIO_00_52 or 0 Output variables RIO_00_52 52 Input variables PRIO_20_32 or 20 Output variables RIO 20 32 32 Input variables PRIO_26_26 or 26 Output variables RIO 26_26 26 Input variables PRIO _32_20 or 32 Output variables RIO 32_20 20 Input variables PRIO _52_00 or 52 Output variables RIO 52_00 0 Input variables 6 2 Sum of network variables A maximum of 62 network variables NVs can be defined for each network node Of these four network variables are located in the node object and three variables in the controller ob
100. identification number 93 Object identification 0 65535 WAGO TOPLON PRIO SNVT Details 147 The most important SNVTs Byte 2 status 0 node related Status 0 Bit 7 MSB 1 requested object ID Byte 5 status 3 not existing Bit 6 1 request cannot be answered Bit 5 1 object not active Bit 4 1 object beyond alarm limits Bit 3 1 circuit opened Bit 2 1 object not functional Bitl 1 mechanical fault detected Bit 0 LSB 1 no feedback received Byte 3 status 1 Byte 4 status 2 Status 1 Bit 7 MSB 1 maximum range exceeded Bit6 1 minimum range exceeded Bit5 1 electrical fault Bit4 1 I O malfunction Bit 3 1 network communication error Bit 2 1 self test error Bit 1 1 self test running Bit 0 LSB 1 node online actuator is de activated Status 2 Bit 7 MSB 1 manual mode Bit 6 1 Alarm is active Bit 5 1 object over range WAGO TOPLON PRIO MAGO 148 SNVT Details The most important SNVTs Bit 4 1 Status is event mask Bit3 1 object in programming mode Bit2 1 programming has failed Bit 1 1 alarm output suppressed Bit 0 LSB 1 Reserve bit Status 3 Reserve byte SNVT_occupancy enum 109 1 Presence message 0 area occupied 1 area not occupied 2 area temporarily occupied for passage 3 area temporarily not occupied Oxff NUL
101. ion 1 00 0019 and the controller firmware 1 2 For previous versions the configuration is only possible via a WTC file 1 Open the dialog window for the IEC 61131 configuration with a click on menu point WAGO I O PRO IEC 61131 Configuration or in the symbol bar via the IEC 61131 Konfiguration symbol At first an Info window opens no such identifier 1031 2 In order to close the window you confirm with clicking on the Button of OK It opens a dialogue window in which now all configuration variables from the WAGO TOPLON PRIO wWAGO 110 Configuration Software Configuration maco downloaded SYM file are at your aua EE Variables Type CP Name gt Ca o ee a PLC_PRG Analogausga SCPTdefOutp UCP_Type_15 00000200 PLC_PRG Analagauega SCPTooolSet 75 UCPType16 277 4 PLC_PRG Analogausga SCPThystLo 114 UCPhjl b_Type_17 00040400 5 PLC_PRGZeit_Blink_DO1 SCPTairTemp 132 UCP_Type_18 115 600 6 PLC_PRG PulsdauerDO2 SCPTbypass 34 UCPType19b 0 PLC_PRG Zeit Blink_DO3 SCPTairTemp UCP_Type 20 0 000 J Fizan uf Cont BEE ERE eR ERE b ole Select the desired configuration variable in the column Variables you wish to set To connect a type to the configuration variable click on the attendant type in the Type column A small button appears on the right hand side of the table cell Click on this button
102. ions catalog closed Click on the APPLY button to have the settings applied and the options dialog remain open for further settings The switching over of an option can be made online a re start of the PC is not necessary WAGO TOPLON PRIO maco 24 View Menu bar 3 2 2 1 Register Start maco p Options Subsystem_1 Cancel Abb 11 Register Start g912346e Standard setting activated Indicates whether WAGO TOPLON PRIO is to read out the configuration data of the connected device once started This is only possible if the device has been configured in advance Standard setting deactivated Indicates whether the hardware view is to appear automatically once TOPLON PRIO has been started WAGO TOPLON PRIO View 25 Menu bar 3 2 2 2 Register Language 10 Options Subsystem_1 Ea 3 Language Engish As German Folders English User level Cancel Messages Apply Fig 12 Register Language g912347e Indicates the language in which TOPLON PRIO is to appear TOPLON PRIO is available in German and English Changing to another language can be made online a re start of the PC is not necessary 3 2 2 3 Register Folder 810 Options Subsystem_1 Start C Programme WAGO Kontakttechnik GmbH WAG S 8 Language Folders User level Cace Messages Apply Fig 13 Register Folder g912348e Indicates from where to import a configuration and to wh
103. ject Two sensor objects contain each one network output variable and one actuator object one network input variable as a fix collective variable The residual 52 NVs are to be variably defined in Open Loop Sensor objects or in Open Loop Actuator objects The subdivision of the NVs is determined by the device template selection This defines the number of network input and output variables that can be connected in the network with network variables of other nodes The individual objects and network variables are described in the following chapter Network interface WAGO TOPLON PRIO maco 128 e Device template details Network interface 6 3 Network interface 6 3 1 General information on the network interface maco The network interface describes the node interface to the network It is composed of a large number of objects One object is defined for each individual task in a node These objects consist of a record of mandatory and optional network variables and a record of configuration properties In TOPLON PRIO the following objects are defined e the Node Object e depending on the device template selection 0 to 52 Sensor or Actuator Object with variable NVs e one Sensor Object with fixed NV for DIs Bool_INs e one Sensor Object with fixed NV for DOs Bool_OUTs e one Actuator Object with fixed NV for DOs Bool_OUTs e one Controller Object Here the node object serves the management of all objects The sensor
104. l bus modules without a precise specification will be identifed in black in the now list Insert a bus module from Selection list into the Now list to have this bus module complemented in the graphic at the same time If you remove a bus module it will not be shown any longer in the graphic display WAGO TOPLON PRIO maco 44 e Configuration Hardware Configuration 4 2 3 1 How to insert a bus module 1 From the Selection list choose the desired bus module type and click on its bus module description 2 To be able to take the bus module type over into the Now list click on the upper arrow between the window sections Selection and Now In this manner the bus module taken over will always occupy the last position above the end module 3 Proceed in the same way for all further bus modules Note gt You can also insert a bus module from the Selection window into the Now window by double clicking the module always occupying the last position before the end module Or 4 Select from the Selection list the desired bus module type and click on its bus module description 5 To be able to take the bus module type over into the Now list click on the corresponding bus module description and keep the left hand mouse key pressed 6 In the Now window select the desired position for the bus module with the mouse pointer and release the mouse key at this position The bus module appears in the Now list as well
105. l configuration settings are saved in the LNS data base and managed by an LNS server The LocationID serves to identification the location of the LON node in a network For this the user can poll the node info window via the View Node menu and enter an own location identification e g 1 0G with max 6 characters LON Local Operating Network is a multi master capable communication network developed for distributed industrial applications with not time critical requirements especially for building automation With LON the central tasks are subdivided into small distributed tasks to be performed so that in each distributed intelligence node applications can be to a large extend processed locally without placing a burden on other bus subscribers Abridged form of LON fieldbus node Intelligence for the processing of applications in a LON LonWorks is one of the uniform communication standard in building automation backed by a comprehensively documented technology open to WAGO TOPLON PRIO maco 158 e Glossary The most important SNVTs everybody who wants to use it This standard was developed by an independent technological institution the US based Echelon supported by the semi conductor manufacturers Cypress and Toshiba Mandatory network variables MaxSendTime MinSendTime The node object contains the prescribed network variables nviRequest and nvo Status as mandatory NVs In all cases each network out
106. l the Selection of a IEC 61131 Application window By importing a SYM file the names and addresses of the IEC 61131 variables are available for the user See How to import a SYM file in chapter Configuration Software configuration Setting the Prog Remote I Os for Controller Open Download Only available after a download of a wtc file WTC file To poll the Selection of a Parameter File window Configuration values of local variables can be download of a wtc file e g timer setpoints etc See How to load a WTC file in chapter Configuration Software maco WAGO TOPLON PRIO 22 View Menu bar configuration Setting the Prog Remote I Os for Controller Download To poll an Open dialog from which a desired IEC 61131 application IEC 61131 with the file suffix hex can be selected Application Permits downloading the IEC 61131 application via the LON network As an alternative the download can be performed via the controller configuration interface Configuration IEC To poll an Info window and following a dialog window for IEC 61131 61131 parameter configuration 3 2 1 6 Menu Help Info 26 Plug In Help Topics Info Version of the L2SCOMServer 2 0 Fig 9 Menu Help Info g912352e Attention A N The menu point version of the LZSCOMServer is only made available for one fieldbus node with fieldbus controller 750 819 as a head end provided that the user level Ex
107. late selection are listed in a selection menu The attendant SNVT for each NVO is indicated in brackets No default NVO is connected Note gt You can define the SNVTs for the network output variable in the settings of the NVOs column Type e Column 4 Element In this column you can connect a specific element of the SNVT of the selected NVO to the corresponding Boolean input variable For this purpose all elements of the connected SNVT are available to you in the SNVT details window that is automatically polled No default element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure e Column 5 ON value In this column you have the possibility to define an ON value for desired Boolean input variables This value is to be transmitted by the connected network output variable as soon as the corresponding Boolean input variable 1 is set As a default value the top limit value of the validity range of the SNVT or of the SNVT element is proposed e Column 6 OFF value In this column you have the possibility to define an OFF value for desired Boolean input variables This value is to be transmitted by the connected network output variable as soon as the corresponding Boolean input variable 0 is set As a default value the bottom limit value of the validity range of the SNVT or of the SNVT element is proposed WAGO TOPLON PRIO wWAGO 90 e Configuration Soft
108. ler or controller specific functionality This functionality is automatically available after selecting a device template and starting up the plug in in the network management tool software With a fieldbus coupler 750 319 you can use the RIO Remote IO functionality i e you get a table on your operating surface with all I O channels listed that you can assign network variables With a fieldbus controller 750 819 compared to it you can use the PRIO Programmable Remote IO functionality At this you get a table with all variables listed that you declared according to IEC 61131 for the assignment to network variables A download of the desired application program from the plug in via the LON network onto the processor of the controller uC C165 is possible to allow linking to IEC 61131 3 In line with your node configuration WAGO TOPLON PRIO provides either the detected module channels or the variables for the NV connection declared by you according to IEC 61131 on an operating surface offering a clear table type mask You can determine for each channel what data and what form of data is to be made available at the network or expected from there For this simply freely select the desired standard network variable type SNVT You can for instance define a digital channel as an SNVT_ switch SNVT_ State or SNVT_lev_disc and an analog channel for example as an SNVT_volt SNVT_lux or SNVT_temp_f Interoperability meaning the standar
109. lick on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button A window opens for you to proceed with the desired setting Click on the Apply button in the right hand bar WAGO TOPLON PRIO 4 3 3 3 DOs Configuration 69 Software Configuration To define the settings for the digital outputs select the Dos group with the left hand bar The table in which you can make your DO settings is now displayed in the central section of the dialog window The user level in the options dialog is not relevant for the settings of the DOs The display has eight columns for both user levels Standard and Expert Expert user level o 10 Configuration Subsystem_1 Drag a column header here to group by that colini e S no change Z a no change lt gt no change lt gt no change no change lt gt no change ino change le no change Apply no change lt gt no change Refresh e Column 1 DO No In the column DO No all digital outputs available to you in your network node are listed numbered The number of digital outputs depends on the hardware configuration defined beforehand No settings can be made in this column e Column 2 Name In this column you can enter any desired name for each digital output WAG
110. lt setting Use TimeOut is de activated Column 7 TimeOut value Attention The column TimeOut value is mapped out in the Standard user level This column allows you to define the TimeOut value for the SNVT element that is connected to the corresponding analog output Note gt A TimeOut value can only be defined when Use of TimeOut is activated 82 e Configuration Software Configuration maco Column 8 Default behavior Attention The Default behavior column is mapped out in the Standard user level In this column you can enter a desired default behavior for each network input variable connected to an analog output You can select between Write value Write value if equal with default mask if not no change and Write value if equal with default mask if not value 0 With Write value you can define that the network input variable value for the connected SNVT element is always to be put out on the analog output The values for the unconnected SNVT elements are not taken into account With Write value if equal with default mask if not no change you can define that the network input variable value for the connected SNVT element is only conditionally to be put out on the output i e only if all values that NVT transmits for the unconnected SNVT elements coincide with those values that you have defined in the Default Mask column beforehand If only one of these values does not agree the
111. mask for the purpose of default behavior definition In the default mask you can define values for all SNVT elements which are not connected Then the value of the accompanying network input variable will be compared with the default mask with the exception of the connected element In the case that all values are identical with the mask the network input variable value of the connected element will be handed out to the output If only one of the values is different the analog output will retain its value or it will be set to zero according to the setting default behavior Default setting of the default mask for all elements the individual minimum value Note gt The definition of a default mask is only possible if a default behavior is defined WAGO TOPLON PRIO Configuration 107 Software Configuration 4 3 4 9 How to set Var_Outs l 2 In the Name column select the desired other output variable you wish to set To connect a network input variable to the other output variable click on the corresponding cell in the Connected to column A small button appears on the right hand side of the table cell Click on this button A selection menu appears which contains all available NVOs To select the desired NVI use the scroll bar to move up or down the selection menu and click on the desired NVI A window opens showing the SNVT and if applicable the elements of this SNVT are displayed by the selected NVI
112. mbol DAT aiem aE E E R ER 30 34A Status Dar sereen ar E aus 30 A Configuration sssssssisssssseissssstosisscssessossossdisadoosiosscstvsdssceseisessossssssdeve sisitan 31 4 1 General Comments to the node configuration sessessesessseeseesesseesee 31 4 1 1 Typ s of b s Mod le aceniad 31 4 1 2 Bus module numbering c ce cccceccceseceseeeesceeseeceeceeeeeeeeeeseeesaeenes 34 4 1 3 Apply configuration sp csccaaszssucesatdcecsaianesannesdudapdadiccavastaccustsasaumessnens 35 4 1 4 PNG Ge DOM R A neve EE A 37 4 1 5 File GOLD eccora ien a EE EA ER 37 4 1 6 Load COMTI C OT AION x sireacisieut cece enhersenceneunstcraceseatexecsnietnenacunnnns 38 4 2 Hardware Configuration ses scssccssssiadereinasctvssasraasescsacerssdianceiagh toivsanssaesss 39 4 2 1 Structure of an Operating Surface i siscsissvacelssevscerdosurccensstondeiedaonnsess 39 4 2 2 Online hardware configuration s sssssssessseesseseesresseseresressesseesees 41 4 2 3 Offline hardware configuration s ssnssesessseessesesssresseserssressessrssens 43 4 2 4 End Hardware Configuration cccccccceseescessteceneceeeeeeeeeeseeesseenes 45 4 3 Software CON OUT AO sc c ccinl uate sacey aciuedentavyncecteam te avenieuceeminncnuaeces 46 4 3 1 Cr ation of an Operating Surface s ciscssueveeceisacvsassaddvenssuareteussascantes 46 4 3 2 Setting the NVs for Couplers and Controllers ceeseeeeeeeees 49 WAGO TOPLON PRIO maco ive Table of Contents maco
113. ms File Export File Import WAGO TOPLON PRIO maco 30 e View Symbol bar 3 3 Symbol bar O70 4 uwa Fig 18 Symbol bar g912329x The symbol bar shows the most important commands for TOPLON PRIO as symbols These symbols already appear in the menu bar behind the individual commands To allow you to assign these symbols more quickly to the individual commands they bear so called tool tips In other words if you shift the mouse pointer on a symbol of the symbol bar a small window appears giving a brief symbol description Symbol Meaning Import file Export file Node view NV Browser view Hardware configuration Software configuration Sse Ss g ii AO Configuration IEC 61131 3 4 Status bar 08 38 01 Star Mm OfNet Fig 19 Status bar g912343e The status bar shows you on the right hand side whether or not TOPLON PRIO is in the OnNet or OffNet operating mode On the left hand side the current sequence of actions or possible errors are displayed Errors occurring are logged in the bar center part More Information For a detailed description of the error fault display and of the log please refer to chapter Diagnosis possibilities Status display maco WAGO TOPLON PRIO Configuration 31 General Comments to the node configuration 4 Configuration 4 1 General Comments to the node configuration 4 1 1 Types of bus modules For a node with the fieldbus controller 750 819 as a
114. n this button A selection menu appears offering three possible settings e Click on the desired setting The Default_ Mask window appears WAGO TOPLON PRIO wWAGO 108 Configuration Software Configuration Enter the desired default values and click on the OK button The window is closed and your settings displayed in the table c To change individual settings of the default values click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button The Default_ Mask window opens for you to make the desired changes 8 In the right hand bar click on the Apply button WAGO WAGO TOPLON PRIO Configuration 109 Software Configuration 4 3 5 Configuration IEC 61131 Starting from TOPLON PRIO version 1 00 0019 and the controller firmware 1 2 after download of the SYM file you can specify the paramter values for the configuration variables The configuration variables are variables those should be changeable from the outside e g switching times target being etc Another possibility to specify the parameter valuess is to download a WTC file in the controller You can use this possibility if you possesses a previous version of TOPLON PRIO or the controller firmware 4 3 5 1 How to configure the IEC 61131 Configuration variables Note gt This configuration described here is possible starting from the TOPLON PRIO vers
115. nal system supply with bus power supply 24 V DC 750 615 Internal system supply with fuse holder 120V AC 750 600 End module Note gt The end module is automatically pre defined in a hardware configuration with TOPLON PRIO WAGO TOPLON PRIO wWAGOo 34 Configuration General Comments to the node configuration 4 1 2 Bus module numbering To achieve an unambiguous connection of the connected inputs and outputs of the bus modules the inputs and outputs are numbered as follows Digital Analog inputs input AW Numbering starts at the first bus module following the bus coupler and continues from left to right The above figure shows two digital and one analog 4 channel input module The digital input channels are numbered one after the other with 1 through to 8 in line with the 4 channel bus module the channels of the analog input modules with 1 to 4 If you insert further bus modules proceed with your numbering again in the way outlined above WAGO WAGO TOPLON PRIO Configuration 35 General Comments to the node configuration 4 1 3 Apply configuration Every Hardware and Software configuration and especially for the controller the IEC 61131 parameter configuration is applied in a so called LNS data base All configuration settings are saved in the LNS data base and managed by an LNS server LonWorks Netzwerk Service If a fieldbus node hardware is connected during application in the LNS data
116. nd Outputs Note gt If not all groups specified above are mentioned the user level Standard is selected in the options dialog e The medium part contains a table with the information to be set You can change to the information of the desired group by clicking on the symbol of an input or an output group in the left hand bar The table lines contain all inputs and outputs of a group The corresponding group symbol appears in front of each input or output The attendant information appears in columns The current table line is marked at the left hand table margin by an arrow If a long table is shown a scroll bar is mapped in along the right hand table margin allowing to scroll the screen up and down The individual number of the table columns depends on the selected user level Expert or Standard in the options dialog The user level defines whether or not all information is displayed or if some are mapped out Note gt For the setting possibilities of the input and output groups please refer to the corresponding chapters e Above the tables is a filter bar permitting the information to be filtered column by column and as such the grouping of data records Note gt For detailed information to this effect please refer to chapters Filtering of data and De selection of data filtering WAGO TOPLON PRIO maco 48 Configuration Software Configuration e Three buttons are on the right hand bar Button O
117. ndatensnecennccenscasesescseancsens 126 6 1 General information to device templates ccececsceseceeeeeeeeeeeeee 126 6 2 Sum of network variables scccsccsssisnacdancensesanscansasverssenddasssesnragenanenetanness 127 GS Network interface niron i a RE E EAEE 128 6 3 1 General information on the network interface eee 128 6 3 2 Node Status CUCU i cssncsaiscvisnevaanssnitesntaiasniocsa bess ssnueisanduantdieeustes 130 6 3 3 Open Loop Sensor Object with variable NVs cceseeseeetees 130 6 3 4 Open Loop Actuator Object with variable NVs eeeeeees 130 6 3 5 Open Loop Sensor Object with fixed NV for DIs Bool_Ins Var_INs130 6 3 6 Open Loop Sensor Object with fixed NV for DOs 131 6 3 7 Open Loop Actuator Object with fixed NV for DOs Bool OUTS V at OUTS iccse niuia 131 6 3 8 Controller CID ECE asrni A E 131 7 Remote capapility sssssiisissseissssssssssssssossissesseisssuasesiss aveiocssdosssscdssjo rissani 132 7 1 R mote F l CMC pccccsadscaceareigeresainiccanunadesasen n a ER 132 7 2 Remote Lightweight CUS iccnrsssscSsnespntinnnevcranssess Mev sanced wwazucentiieessees 133 8 SNVYT Details sssossssessessssesssvssoessevssssssosssosssesviossssssssos sossosososssss eos sassssss 134 8 1 G n ral WE OTN AIST seisine na E EEO Eai 134 8 2 D ta type See E EEEE 135 8 2 1 Fixed point MUMMOT sisisi oeeie aa a iaia 135 8 2 2 Floating point NnUMber essseesseseseseesseesesesseesrsessseeseeseessesseserse 135 8
118. nfiguration General Comments to the node configuration maco Analog inputs green group marking 750 452 2 Channel analog input 0 20mA diff 750 453 4 Channel analog input 0 20mA single ended 750 454 2 Channel analog input 4 20mA diff 750 455 4 Channel analog input 4 20mA single ended 750 456 2 Channel analog input 10 V 750 457 4 Channel analog input 10V DC single ended 750 459 4 Channel analog input 0 10V DC single ended 750 460 4 Channel analog input Pt100 RTD 750 461 2 Channel input Pt100 RTD 750 462 2 Channel analog input Thermo 750 465 2 Channel analog input 0 20mA single ended 750 466 2 Kanal Analog Eingang 4 20mA single ended 750 467 2 Channel analog input 0 10 V single ended 750 468 4 Channel analog input 0 10 V single ended 750 469 2 Channel analog input Thermo wire break 750 472 2 Channel analog input 0 20 mA 16 Bit s e 750 474 2 Kanal Analog Eingang 4 20 mA 16 Bit s e 750 476 2 Channel analog input 10V DC 16 Bit s e 750 478 2 Channel analog input 0 10V DC 16 Bit s e 750 479 2 Channel analog input 10V DC Diff measuring input 750 480 2 Kanal Analog Eingang 0 20 mA Diff measuring input 750 485 2 Channel analog input 4 20mA EEx i 750 491 1 Channel DMS module 750 492 2 Channel analog input 4 20mA Diff measuring input Digital outputs red group marking 750 501 2 Channel digital output 0 5A 24 V DC 750 502 2 Channel digital output 2A 24 V DC
119. ng etc RIO 00 52 RIO 20 32 RIO 26 26 RIO 32 20 RIO 52 00 5 RIO Standard device templates PRIO 00 52 PRIO 20 32 PRIO 26 26 PRIO 32 20 PRIO_52_00 5 PRIO Standard device templates PRIO 26 26 0 1 1 PRIO device templates LonMark certified with ProgID 80007005018A0422 RIO 26 26 1 RIO device templates LonMark certified with ProgID 80007005018A0470 WAGO TOPLON PRIO Start 15 TOPLON PRIO Start e PRIO 00 52 02 e PRIO 10 42 02 6 PRIO device templates version 0 2 mois These templates support 5 Network Variable Config e PRIO 20_32_02 Inputs NCIs The NCIs are non volantile network e PRIO 26 26 02 input variables for the configuration data those are e PRIO 32 20 02 stored in the EEPROM of the neuron chip e PRIO 42 10 02 Of these 19 different device templates have the suffix PRIO _ and 6 different device templates have the suffix RIO_ The PRIO_ device templates allow the use of the programmable remote I O function with a fieldbus controller as a head end The RIO_ device templates allow you to use the remote I O function with a fieldbus coupler as a head end Here the first number in the name of the individual device template indicates the lot of bindable network output variable and the second lot of bindable network input variables Example In the node the standard device template PRIO_20 32 provides 2
120. nized and applied in the LNS data base Click on the REFRESH VIEW button after changing a variable type then at first the dialog window is closed and then automatically re opend After this the window is updated and the data format of the variable value is adapted according the selected type Attention All previous configuration settings are overwritten by a configuration loaded down from the node WAGO TOPLON PRIO Configuration 37 General Comments to the node configuration 4 1 4 File export With File export you can save in a file an entire configuration hardware and software as well as relevant data of the SYM file created online or offline To be able to import this file in a node it is saved with the suffix tpi Note gt In the Save register of the options dialog you can activate the automatical creation of a tpi file backup copy A backup copy will only be made of the Tpi file The Hex and Sym file will only be copied if the configuration is explicitly stored via the menu items File Export File Import The command File Export is to be found in the menu bar of the main mask or via the corresponding symbol in the symbol bar d 4 1 5 File import You can load a configuration hardware and software as well as relevant data of the SYM file created offline or online as a file in any number of network nodes The command File Import is to be found in the menu bar of the main mask
121. not transmitted into this table line Proceed in the same way for further NVOs WAGO TOPLON PRIO maco 62 Configuration Software Configuration Or 9 Select the desired NVO the setting of which you wish to copy then click on the corresponding table line to select it 10 To copy the settings press the key combination lt Ctrl gt lt Shift lt C gt 11 To transmit the settings select the desired NVO for which you wish to apply the configuration settings 12 Click on the corresponding table line to select it then press the key combination lt Ctrl gt lt Shift gt lt V gt 13 Proceed in the same way for further NVOs Note gt The name of the NVO is not copied and the insertion of a configuration setting is only possible with NVs that are not linked WAEG WAGO TOPLON PRIO Configuration 63 Software Configuration 4 3 2 9 NVs Attention The group of NVs is mapped out of the Standard user level The group of NVs contains the fixed collective variables nvo_di_outpa nvo_do_outpa und nvi i inpa The process image of max 248 DIs or max 31 bytes input variables Bool_INs and or Var_INs can be represented in the network by means of the collective variable nvo_di_outpa For the coupler 750 319 the variable nvo_di_outpa consists of a bit field with the size of 31 bytes For the controller 750 819 the variable represents the first 31 bytes of the DPRAM output range The process image of max 248 DO
122. o be entered into the dialog window Bottom limit of the module value 0 corresponds to 10 in the NV and Top limit of the module value 32767 corresponds to 140 in the NV Example 2 SNVT_temp You wish to record for example temperature values in the range of 40 C 75 C using an analog input module range 0 V 10 V You have connected the analog input to a network output variable of type SNVT_temp resolution 0 1 C Offset 2740 To establish the NV limits divide the desired range limits 40 C and 75 C by the 0 1 C resolution of the SNVTs You obtain the following values 400 and 750 SNVT_temp being a special case you have to take the offset into account and add 2740 to both values 76 Configuration Software Configuration maco You obtain the following values to be entered into the dialog window Bottom limit of the module value 0 corresponds to 2340 in the NV and Top limit of the module value 32767 corresponds to 3440 in the NV Column 6 SendOnDelta In this column you can enter a value SendOnDelta in SendOnDelta defines the percentage 0 to 100 of maximum by which the value of the analog output has to change to have the analog value re updated and put out to the network The SendOnDelta default value is 0 i e the analog value will be updated following the smallest change Column 7 Use of the Default mask Attention The column Use Default mask is m
123. o select it Click with the right hand mouse key on the arrow located in front of the selected line The above menu re appears Click with the left hand mouse key on the menu point Paste NV configuration The settings are not transmitted to this table line Proceed in the same way with further NVIs WAGO TOPLON PRIO WAGO 56 Configuration Software Configuration Or 9 Select the desired NVI the setting of which you wish to copy then click on the corresponding table line to select it 10 To be able to copy the setting press the key combination lt Ctrl gt lt Shift gt lt C gt 11 To transmit the settings select the desired NVI for which you wish to apply the configuration settings 12 Click on the corresponding table line to select it then press the key combination lt Ctrl gt lt Shift gt lt V gt 13 Proceed in the same way for further NVIs Note gt The NVI name is not copied insertion of a configuration setting is only possible with NVs that are not linked WAGO WAGO TOPLON PRIO 4 3 2 6 NVOs Configuration 57 Software Configuration In the left hand bar select the NVOs group to set the network output variables The table is now displayed in the center section of the dialog window in which you can perform your desired NVO settings If the user level Standard is selected in the options dialog you are shown four columns If you have selected the user level Expert four
124. of a Remote Lightweight Client the network communication with the LNS server can be made via Ethernet TCP IP in this case also called LNS IP line However an acces via the server is always essential As soon as the server is operating a device fieldbus node can be configured or the configuration be changed with a Lightweight Client The components need to be in the online mode WAGO TOPLON PRIO wWAGOo 134 SNVT Details General Information 8 SNVT Details 8 1 General Information maco In the Neuron C programming language a network variable NV is a type referenced variable This variable is used to realize logical communication channels between LON nodes Where data is transmitted from a node to the network then this is done via network input variables nvi where data is transmitted from the network to the node the transmission is via network output variables nvo Each NV can be connected to one or several NVs of one or several network nodes An important feature when linking NVs is that their data types are matching An interoperable communication independent of the manufacturer of the LON nodes in a network is possible through standardized network variables types the so called SNVTs Standard network variables types Each SNVT definition contains the name of the type the application area the overall length in bytes as well as other information such as value range increment size or resolution which define
125. olls the page set up dialog E Print Polls the printer dialog Close Closes the print review 5 4 2 2 Page set up dialog maco You can define settings for your information print out prior to print out the data of your configuration For this go to the Page set up menu in the print preview The page set up dialog is displayed Enter the desired settings in the individual fields Select the desired attitudes and enter you into the respective fields the desired mass for the edges Confirm afterwards your attitudes with clicking on the Button of OK Ifyou would like to print the information with the selected side attitude click on the Button Print WAGO TOPLON PRIO Diagnosis possibilities 123 Documentation Seite einrichten 5 4 2 3 Printing the hardware configuration The bus module configuration shows you a list of all hardware configured bus modules To be able to print out the hardware configuration click on the PRINT button in the right hand bar of the hardware view The print review for the bus module configuration is displayed Device node1 Location 000000 Project nodel 13 11 01 16 47 31 ProgID 90007005018A0422 NeuroniD 00 00 00 00 00 00 750 819 LON Fieldbus coupler 750 600 Endclamp a Py WAGO TOPLON PRIO maco 124 e Diagnosis possibilities Documentation 5 4 2 4 Printing the software configuration To print out the desired information click on the corr
126. on In contrast the standard view version is reduced to the most important setting possibilities Information mapped out in the standard view version have standard default values WAGO TOPLON PRIO WACA 28 View Menu bar 3 2 2 5 Register Messages p Options Subsystem_1 Cancel Fig 16 Register Messages g91235le Standard setting activated Indicates whether or not the tips and warnings are to be displayed WAGO WAGO TOPLON PRIO View 29 Menu bar 3 2 2 6 Register Save o Options Subsystem_1 x Start 8 Language IV Create Backup automatically Folders User level Messages Apply Fig 17 Register Save g9123b0e Standard setting activated Indicates whether or not a backup copy of the configuration settings is to be saved during terminating WAGO TOPLON PRIO The backup copy will be stored as file with the ending tpi in the file which is selected in register folder of the option dialog In this folder the file structure becomes with terminating Temp TPIs project name node name and in addition to this automatically a file name for the backup copy is assigned For clear identification the file name has the following name convention tpiX_Y_ Z tpi X sequential number Y Subnet ID Z Node ID Note A backup copy will only be made of the Tpi file The Hex and Sym file will only be copied if the configuration is explicitly stored via the menu ite
127. pert is selected in the options dialog Menu entry Description Plug in help subjects F1 To poll this TOPLON PRIO online help also possible by pressing the F1 key Info Window display Information on TOPLON PRIO LZSCOMServers Shows the versions number of the LZSCOMServers version This information is helpful to determine a possible error with different versions If n s is shown instead of the version number the server could not be found or the version definition was incorrect WAGO WAGO TOPLON PRIO View 23 Menu bar 3 2 2 Options dialog The options dialog can be accessed from the menu bar of the main mask under the menu entry Extras Options Extras i Options Alt 0 Fig 10 Menu point Extras Options g912330e The dialog offers you six registers from which to choose the options e Start e Language e Folder e User level e Messages e Save The options Automatic Hardware View in the Start register Language Folder and Messages are set globally for all devices of a project whereas the options User level Upload the whole configuration from the devioce in the Start register and Save are set individually for every network node Three buttons are provided for taking over the settings and changes made in the registers Click on the OK button to have the settings applied and the options dialog closed Click on the CANCEL button to have the settings ignored and the opt
128. ponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button A window opens for you to proceed with the desired setting 7 To be able to enter a default value for SendOnDelta click in the corresponding cell of the SendOnDelta column and enter the desired value in 8 Can only be set in the Expert user level a To activate the function Use Default mask click on the corre sponding control box in the Use Default mask column to enter a tick The window Default_Mask opens b Enter the desired default values and click on the OK button The window closes and your settings are shown in the table c To change individual settings of the default values click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button The window Default Mask opens for you to proceed with the desired changes 9 In the right hand bar click on the Apply button WAGO WAGO TOPLON PRIO Configuration 101 Software Configuration 4 3 4 8 Other output variable To define the settings for other output variables select the Var_Outs group in the left hand bar The table permitting you to enter your desired Var Outs settings appears in the center section of the dialog window If the Standard user level is selected in the options dialog you are shown a total of five columns If you have selec
129. put variable having a default will be transmitted once the set time has elapsed at the latest irrespective of a value change Each network output variable with a default MinSendTime will be transmitted once the set time has elapsed at the earliest Netzwerkmanagement Tool Software A network management tool software is a software in which network devices nodes can be integrated addressed and maintained and to network variables be binded The basic of a network management tool should be LNS Then the starting up of the configuration plug ins of different manufactures with the tool is possible Network variable Neuron C NeuronID maco A network variable is an object of a network node intended for the data exchange that can be connected to one or several network variables of one or several network nodes Standardized network variables types so called SNVTs Standard Network Variables Types permit an interoperable independent of the manufacturer communication of the LON nodes in a network When data is transmitted from a node to the network this is done via the network output variable nvo whereas data from the network to the node is transmitted via the network input variable nvi Neuron C is an ANSI C standard based programming language for the programming of a Neuron chip the micro controller in a LON fieldbus coupler with applications Each micro controller in a LON fieldbus coupler Neuron chip has its own identif
130. re configuration NY Details fi ES SNVT_strase Format Details 1 scl Button NV DETAILS When clicking on this surface the SNVT details window opens giving you detailed information on the standard network variables type just selected BitOffsetAbsolut BitSize Comment HasReference Name NodeType ProgrammaticName ResBitfield ResEnum ResFloat ResScalar ResSize Unit 1 248 Falsch ASCII character string 8 ARRAY 0 ascii Falsch Falsch Falsch Falsch 31 array of 31 characters f SNYVT_str_asc Format Details 1 ascii i WAGO TOPLON PRIO Diagnosis possibilities 121 Documentation 5 4 Documentation 5 4 1 Presentation types The display of the information is dependent on the selected user level and also on the selected type of presentation To have the information selected you can choose from two different types of presentation e Table form standard setting or e Card form Both types of presentation are optionally applicable to each input or output In this manner the dialog window can contain any mixture of both types of presentation To change the type of presentation of the information click on this information using the right hand mouse key The following menu appears Table view mode ET Index tab view mode amp Print Data Copy NY configuration Ctrl Shift C gt dteveraratiiteaiGn tit EPY fet sh PSA ecejeieimibire eines Patti
131. red SNVT In the Expert user level now the attendant index is automatically shown in the SNVT ID column and the length of the selected SNVT in the column Length in bytes 5 Can only be set in the Expert user level a To be able to enter a TimeOut time click in column TimeOut monitoring on the corresponding cell and enter the desired time 6 In the right hand bar click on the Apply button WAGO WAGO TOPLON PRIO Configuration 55 Software Configuration 4 3 2 5 How to copy and transmit NVI settings l Select the desired NVI the setting of which you wish to copy and click on the corresponding table line to select it With the right hand mouse key click on the arrow located in front of the selected line You obtain the following menu Table view mode ET Index tab view mode Copy NV configuration Ctrl Shift C Note gt If this menu window is not displayed a cell might be in the editing mode e g in the network variables name or in a time function Min MaxSendTime To have the menu window displayed click with the left hand mouse key on the small arrow located in front of the table line then click on this arrow again using the right hand mouse key Click with the left hand mouse key on the menu point Copy NV configuration To be able to transmit the settings select the desired NVI for which you wish to apply the configuration settings Click on the corresponding table line t
132. rowser node2 Subsystem _1 Foe a column header eto moup by that golami B FE CESSES S Dc SN ob reques t 92 Standard No monitoring PASEI SNVT_obcstatus 93 Standard No monitoring avian SNVT_alarm 88 Standard No monitoring DVR BCRIY SNVT_address 114 Standard No monitoring nvi00 SNYT_stasc 36 Standard No monitoring nvi0l SNVT_strasc 36 Standard No monitoring y nvil2 SNVT_str_asc 36 Standard No monitoring 4 nvil3 SNVT_strasc 36 Standard No monitoring a a nvil4 SNYT_strasc 36 a Standard No monitoring 4 nvil5 SNVT_strasc 36 Standard No monitoring E TEE SNYT_str_asc 36 Standard No monitoring E 4 nvil SNVT_strasc 36 Standard No monitoring E a nyi08 SNVT_strasc 36 Standard No monitoring amp nvil3 SNVT_strasc 36 Standard No monitoring a me nvild SNYT_st_asc 36 Standard No monitoring 4 nvill SNVT_strasc 36 Standard No monitoring SNYT_stasc 36 Standard No monitoring SNYT_str_asc 36 Standard No monitoring SNYT_str_asc 36 Standard No monitoring SNYT_str_asc 36 Standard No monitoring SNYT_str_asc 36 Standard No monitoring SNVT_strasc 36 Standard No monitoring SNVT_strasc 36 Standard No monitoring ONYT str sen lag Qtandard Na manitarine When polling the browser all values of the network variables are read in first Note gt The time reading in of the values takes depends on the PC LNS version and of the distance to be covered by the n
133. rresponding digital input is not activated The bottom limit value of the validity area of the SNVTs or of the SNVT element is given as a default maco 68 e Configuration Software Configuration 4 3 3 2 How to set the Dis l 2 maco In the DI No column select the desired digital input that you wish to set In order to name the digital input according to your requirements enter any name for the corresponding input in the Name column In order to connect a digital input to the network output variable click on the corresponding cell in the Connected to column A small button appears on the right hand side of the table cell Click on this button You are offered a selection menu containing all NVOs available to you For the selection of the desired NVOs use the scroll bar to move up and down the selection menu and click on the desired NVO A window opens showing the SNVT and if applicable the elements of this SNVT of the selected NVO Click on the SNVT or on a desired element of the SNVT in the displayed directory structure then click on the OK button A window opens in which you can enter a default ON value Enter the desired ON value and click on the OK button A window opens in which you can enter a default OFF value Enter the desired OFF value and click on the OK button The window is closed and your settings are displayed in the table To change individual settings c
134. s The Address column lists the addresses of all other input variables These are also available after the import of the SYM file The addresses cannot be changed Column 3 Connected to This column allows you to connect a desired network output variable to any other input variable for communication via the network For this purpose all NVOs available to you on the basis of your device template selection are listed in a selection menu The attendant SNVT for each NVO is indicated in brackets No default NVO is connected Note gt You can define the SNVTs for the network output variables in the settings of the NVOs column Type Column 4 Element This column allows you to connect a specific element of the SNVT of the selected NVO to the corresponding other input variable For this purpose all elements of the connected SNVT are available in the automatically polled SNVT details window No default element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure Column 5 Scaling You can enter a default top and bottom limit for each other input variable and for the attendant network output variable and thereby carry out a linear scaling When entering the desired limit values take the resolution of the standard network variable type of the connected network variable into consideration You determine the limit values for the network output variable with
135. s hexadecimal SNVT_alarm Byte 0 5 Point of 88 29 Alarm to the transmission ASCII management Byte 6 7 Object system or protocol identification device Byte 8 Alarm type Alarm type Byte 9 Priority 0 No alarm Byte 10 11 1 Alarm not NV Index on specified variable of data in value 2 4 Total Service alarm 1 2 3 Byte 12 15 Value E Byte 16 22 ee limit SNVT_time_stamp ere een Byte 23 24 7 8 high limit Millisecond Delete alarm Byte 25 28 9 10 low Alarm limitation limit set alarm 11 12 high limit set alarm Oxff NUL Priority 0 3 0 lowest 3 highest alarm level Oxff NUL SNVT_currency Byte 0 Currency 89 6 Currency number indication as Byte 1 Multiplier follows Currency B 2 3 Val ponent number 49 sFr 14 EURO 17 DM 02 Schilling 54 USS Oxff NUL Multiplier 0 Value x 1 2 Value x 100 2 Value 100 Value Signed 32 Amount gt 0 Credit WAEA 142 e SNVT Details The most important SNVTs lt 0 Debit SNVT_color Byte 0 1 L 70 6 Color in CIE Byte 2 3 a standard color Byte 4 5 b space units L 0 100 in 0 1 increments a 200 200 in 0 1 increments b 200 200 in 0 1 increments SNVT_evap_ state enum 118 1 Evaporator status 0 Evaporator without cooling 1 Evaporator with cooling 2 Evaporator emergency cooling 8 3 1 9 File transfer SNVT_file_pos LonMark S
136. s can be represented in the network by means of the collective variable nvo_do_ outpa This variable exists only for the coupler 750 319 The variable nvo_do_outpa consists of a bit field with the size of 31 bytes The process image of max 248 DOs or max 31 bytes output variables Bool OUTs and or Var OUTs can be set in the network by means of the collective variable nvi_i_inpa For the coupler 750 319 the variable nvi i inpa consists of a bit field with the size of 31 bytes For the controller 750 819 the variable represents the first 31 bytes of the DPRAM input range Note gt For more detailed information to this subject please refer to chapter Device template details To set the collective variable select the group of NVs in the left hand bar Now the table in which you can proceed with your desired settings is displayed in the central section of the dialog window Expert user level lt o 10 Configuration Subsystem_1 Tn ieron Tine N SerdTine i MaSendTine Tiedt Tinu vave Wate atere z JE nvo di outpa UNVT_dio 00 00 ae ae i nvo_do_outpa UNYT_dio l 5 n a nvi_Linpa UNVT_dio 5 000000000000 Apply so f ae Refresh Bool_INs Bool_OUTs Var_INs Memory Usage WAGO TOPLON PRIO maco 64 Configuration Software Configuration maco Column 1 Network variable The names of the collection variables
137. scroll bar to move up and down the selection menu and click on the desired NVI A window opens showing the SNVT and if applicable the elements of this SNVT of the selected NVI Click on the SNVT or on a desired element of the SNVT in the displayed directory tree structure then click on the OK button The window Analog value scaling opens permitting you to enter the default value for the top and bottom limit of the analog module value and of the network variable Enter the desired limit values and click on the OK button The window closes and your settings are displayed in the table To change individual settings click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button A window opens for you to enter the desired settings Only to be set in the Expert user level a To activate the Use TimeOut function click on the corres ponding control box in the Use TimeOut column to enter a tick The window Default value for TimeOut opens b Enter the desired default value and click on the OK button The window closes and your settings are displayed in the table c To change the setting of the default value click on the corres ponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button The Default value for TimeOut appears for you to enter your changes d To ent
138. sed to build fieldbus nodes in a modular and application specific manner for different fieldbusses WAGO WAGO TOPLON PRIO 10 Index B DOW SEO nce ee eee 20 116 Bus coupler 34 41 115 155 160 Current SATIS cos sacs cstcenssceesacascnheunsscvevecebctareeetbaveesegvecesesteencie 115 Bus module connection to a TOU suc naszinessesesecssoodsacueadesnsnoase ava pasetndepernlie 40 constellation Ca E Fa ane ae eR E Sere Care rere E terre ree recye re rena yeCrer digital aeon N E TES Specification ssssosre ue RERNE AEE 41 c Configuration ERa oi m EEE E TEE E A TA 25 Tian eLO a Ara EEE E E 25 D Data CMAN TE ia E R A E S 158 Display Minimiza OM ess E Ea EE EEEN 121 E End mod le ccceecesccessscsseceseeeseeeseeeseeeseeeseeesseenaes 33 43 44 155 Error log 115 red fashino soraa Eee earaven neato 115 F Fieldbus Controller i j c c ccsscscseeiscstencsscsasesgussassavsessssnsyatauscasesieaegss 43 Fieldbus Couplet sscan nennir 17 43 154 158 File OX POLE re E E va bebsevateevdeva tele estoaseuneceestutes 37 l Internal system supply module 0 eee eect eects tees eeeeeeeeeeees 160 L Location easter a T T Ane 157 Lon Works A goeree anin E ESE 12 35 157 M Mainmask aerer tissioenirresinesietnrsi ie 19 23 39 43 46 115 Mandatory network variables sseseseseserererererererersrsrsrerereren 128 Menu bar 19 23 30 37 E aT T E A A E A T 37 Modul atiy aer EER 156 WAGO TOPLON PRIO
139. sentation and all following bus modules automatically move up one position WAGO TOPLON PRIO Configuration 43 Hardware Configuration 4 2 3 Offline hardware configuration For a configuration that you wish to perform offline you can configure a LON node according to your requirements independent of any physically existing node hardware You can also reach the dialog window of the hardware configuration in the main mask via menu point Configuration Hardware or in the symbol bar via the symbol Configuration Hardware ig At the beginning of the offline hardware configuration the graphical presentation of the fieldbus node is limited to the display of a head end fieldbus coupler or fieldbus controller and an end module The bus module constellation is then supplemented by you as you desire o nodel Subsystem_1 analog input 2 Channel Digital Input Filter 3 0ms 2 Channel Digital Input Filter 0 2ms 4 Channel Digital Input Filter 3 0ms 4 Channel Digital Input Filter 0 2ms 2 Channel Digital Input 230V AC 2 Channel Digital Input 120 AC 4 Channel Digital Input Filter 3 0ms 4 Channel Digital Input Filter 0 2ms 2 Channel Digital Input Filter 3 0ms 2 Channel Digital Input Filter 0 2ms ETT SOTT ET RS Note gt An end module is already existing and need not be supplemented by you If you have already made a hardware configuration online and you wish to change to the OnNet mode al
140. structure and grouped such that they meet all sorting criteria The more criteria selected the deeper the directory tree structure nesting Here the first sorting is the upper grouping level Grouping within the filtered groups is then performed with each further sorting A preceding plus sign indicates that a group covers a slave structure The slave structure is displayed when clicking on the plus sign A preceding minus sign indicates that the slave structure of a group is displayed When clicking on the minus sign the slave structure is mapped out thereby reducing the display to the higher ranking group 4 3 7 De selecting the data filtering To de select filtering pull the sorting criteria to the center part of the dialog window using Drag amp Drop 4 3 8 End Software Configuration 4 3 8 1 How to end your software configuration 1 To apply the configuration in the node click on the Apply button 2 To terminate your software configuration click on the OK button WAGO WAGO TOPLON PRIO Diagnosis possibilities 115 Status display 5 Diagnosis possibilities 5 1 Status display The status bar is at the bottom edge of the main mask of TOPLON PRIO It permanently shows you the current status of your fieldbus coupler controller 08 38 01 Star m OfNet The status bar is structured in three information units e On the right hand side you see whether your system is currently in the online or in the offline mode
141. t user level a To activate the function Use Default mask click on the corresponding control box in the Use Default mask to enter a tick The Default_ Mask window opens b Enter the desired default values and click on the OK button The window closes and your settings are shown in the table c To change individual settings of the default values click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button The Default_ Mask window opens in which you can perform the desired changes In the right hand bar click on the Apply button WAGO TOPLON PRIO maco 78 Configuration Software Configuration 4 3 3 7 AOs To define the analog outputs select the AOs group in the left hand bar The central part of the dialog window now shows the table in which you can enter the desired AO settings If the Standard user level is selected in the options dialog a total of five columns are displayed If you have selected the Expert user level four additional columns are mapped in The description of the operating surface encompasses the more comprehensive Expert user level The decimation for the Standard user level is clearly pointed out Expert user level o 10 Configuration Subsyst Set value Set value aa Set value Set value a Apuly Set value Refresh
142. t display of the digital and analog inputs and outputs of your fieldbus node in the network variable The hardware configuration defined beforehand is used as a basis for setting the DIs DOs Als and AOs and prescribes what and how many inputs and outputs are available to be connected to network variables It prescribes which and how many inputs and outputs are available to be connected to network variables 4 3 3 1 Dis To define the settings for the digital inputs select the DIs group with the left hand bar Now the table appears in the central section of the dialog window You can make your DI settings in this table The user level selected in the options dialog is not relevant to set the DIs For both user levels Standard and Expert the mask has six columns Expert user level i o 10 Configuration Subsystem_1 ae Drag a column header here to group by that column y Dino Name Connectedto Element ONValue OFFValue ff i x Apply Refresh maco WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 67 Software Configuration Column 1 DI No In the DI No column all digital inputs available to you in your network node are listed numbered The number of digital inputs depends on the hardware configuration defined beforehand No settings can be made in this column Column 2 Name In this column yo
143. ted the Expert user level four additional columns are mapped in The description of the operating surface encompasses the more comprehensive Expert user level The decimation for the Standard user level is clearly pointed out Expert user level Sa tem_1 Drag s coer header here to group by thet column I em ed i i i i i i Bool_OUTs V _INz SSBB u Ea SE f f By is f as ss Heet V OUT Bool_INs Bool_OUTs Var_INs WAGO TOPLON PRIO MAGO 102 e Configuration Software Configuration maco Column 1 Name The Name column names all other output variables that you have declared in your IEC 61131 application These are available after the import of the SYM file No settings are possible in this column Column 2 Address The Address column lists the addresses of all other output variables These are also available after the import of the SYM file The addresses cannot be changed Column 3 Connected to This column allows you to connect a desired network input variable to any other output variable for communication via the network For this purpose all NVIs available to you on the basis of your device template selection are listed in a selection menu The attendant SNVT for each NVI is indicated in brackets No default NVI is connected Note gt You
144. the Standard user level In this column you have the possibility to define a default mask for the purpose of default behavior definition In the default mask you can define values for all SNVT elements which are not connected Then the value of the accompanying network input variable will be compared with the default mask with the exception of the connected element In the case that all values are identical with the mask the network input variable value of the connected element will be handed out to the output If only one of the values is different the analog output will retain its value or it will be set to zero according to the setting default behavior Default setting of the default mask for all elements the individual minimum value Note gt The definition of a default mask is only possible if a default behavior is defined 84 Configuration Software Configuration 4 3 3 8 How to set AOs maco 1 2 In the AO No column select the desired analog output you wish to set To name the analog output according to your requirements enter any name for the corresponding output in the Name column To connect a network input variable to the analog output click on the corresponding cell in the Connected to column A small button appears on the right hand side of the table cell Click on this button A selection menu appears showing all NVIs available to you To select the desired NVI use the
145. the Boolean and other input and output variables All variables declared in your IEC 61131 application are saved with the suffix sym in a symbol file abridged name SYM file Once the SYM file is downloaded into the Plug In the declared variables are available to you for their connection to network variables Starting from TOPLON PRIO version 1 00 0019 and the controller firmware 1 2 is to you at the same time with the device templates PRIO 01 and the SYM file the pre setting parameter values for configuration variables at the disposal The configuration variables Configuration Properties briefly CPs are input variables those should be changeable from the outside e g switching times target being etc These are stored with the data format doubleword starting from address MD 1792 in the retain range and are not volatile thereby More Information i For detailed information to the CPs please refer to the description of the templates You can find these templates in the appendix of the brief instruction WAGO TOPLON Quick start for TOPLON IF and TOPLON PRIO manual part 7 Another possibility to access on the pre setting configuration variables is to download a WTC file in the controller You can use this possibility if you possesses a previous version of TOPLON PRIO or the controller firmware Starting from TOPLON PRIO version 1 00 0026 and the LCA version 2 0 5 non volatile network input variables are
146. the division of the desired area by the resolution of the SNVT NV limit area Desired area Resolution of the SNVTs Attention SNVT_temp is a special case An offset of 2740 C must be added to the computed limit area of the NV for SNVT_temp WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 97 Software Configuration As standard the limits of the input variables comply with the data area of the input variables If you wish to use the entire variables area it can remain unchanged Note gt For time optimization is recommended to accomplish the scaling already in the IEC 61131 3 program and to select the same upper and lower limits in the dialog window for the variable scaling in TOPLON PRIO With same limits the values are simply copied from input to the output variable and a conversion is unnecessarily Scaling of analog values m High limits High limit ofthe variable corespondstoNY lt s gt 1638 m Low limits onimi ofhe vaie _ __covespondstoNV se OOO e Info When assigning different numbers to i the upper limiting values and to the i lower limiting values the calculation of Gana the final figure might be imprecise To avoid this choose one number for both the lower limiting values and another number for both the upper limiting values Would you like to keep the current values Jv Diese Nachich immer aneelaen Example of Scaling
147. tically displayed according to the SNVT selected No settings can be made in this column Column 6 Send On Reset SOR This column allows you to activate the function Send On Reset for the desired network output variables Each network output variable for which the function Send On Reset is activated is automatically sent following a Reset This function is de activated as a default setting Attention To preclude excessive network load when switching on we recommend to reserve the activation of this function for very important variables Column 7 MinSendTime s Attention The column MinSendTime is mapped out in the Standard user level In this column you have the possibility to enter a time MinSendTime in seconds for desired network output variables Each network output variable with a default MinSendTime is sent after the set time at the earliest The default value is 0 0 s 1 e MinSendTime is de activated Column 8 MaxSendTime s Attention The column MaxSendTime is masked out in the Standard user level In this column you can enter a time MaxSendTime in seconds for desired network output variables Each network output variable with a default MaxSendTime is sent in any case at the latest once the set time has elapsed irrespective of a change in value The default value is 0 0 s i e MaxSendTime is de activated Attention To preclude excessive network load we recommend to select MaxSendTime gt
148. time click in the MaxSendTime column on the corresponding cell and enter the desired time In the right hand bar click on the Apply button WAGO TOPLON PRIO Configuration 61 Software Configuration 4 3 2 8 How to copy and transmit NVO settings 1 Select the desired NVO the setting of which you wish to copy then click on the corresponding table line to select it Use the right hand mouse key to click on the arrow located in front of the selected line You obtain the following menu Table view mode ET Index tab view mode Copy NV configuration Ctrl Shift C PASE IS eT Miori Lotti iy Note gt If this menu window does not appear a cell might be in the editing mode e g in the network variables name or in a time function Min MaxSendTime To have the menu window displayed use the left hand mouse key to click on the small arrow located in front of the table line then click on this arrow again with the right hand mouse key Use the left hand mouse key to click on the menu point Copy NV configuration To transmit the settings select the desired NVO for which you wish to apply the configuration settings Click on the corresponding table line to select it With the right hand mouse key click on the arrow located in front of the selected line The above menu re appears With the left hand mouse key click on the menu point Insert NV configuration The settings are
149. ting of all fixed SCPTs given change of the LonMark Association Most SCPT definitions correspond directly to a SNVT definition The at present most current version of the SCPT Masterliste is available in the Internet under http www lonmark org Sensor Object Sensor objects are objects to be used with any sensors for any physical values such as temperature pressure moisture and digital values of controllers and switches The sensor data can be converted via the output network variable nvoValue Typ SNVT_xxx directly into a reaction of an actuator node The general LonMark objects such as sensor or actuator objects are assigned special user functions by determining the network variables used Specification Determination of a bus module on the exact bus module type with precise bus module designation WAGO WAGO TOPLON PRIO Glossary 161 The most important SNVTs Standard functions Standard functions are specific tasks which in general are frequently required and used reason for which they have developed into a standard e g binary input and output SendOnDelta SendOnDelta defines the percentage 0 to 100 of maximum by which the value of an analog output has to change for the analog value to re update and to be put out to the network Send On Reset Send On Reset serves to synchronisation of the states after switch on Each network output variable for which the Send On Reset function is activated is au
150. to specify the digital bus modules l maco Move the mouse pointer in the graphic node display to a digital bus module or to its bus module description in the Now list Click on the right hand mouse key The following menu window appears Delete module E Specify module i if Details Click on the menu point Specify clamp A selection window appears which contains a list of all bus module types that come into question for the recognized digital bus module 2 4 inputs outputs module no 7 specify model Subsystem_1 750 402 4 Channel Digital Input Filter 3 0ms 750 403 4 Channel Digital Input Filter 0 2ms 750 408 4 Channel Digital Input Filter 3 0ms 750 409 4 Channel Digital Input Filter 0 2ms 750 414 4 Channel Digital Input 2 Conductor Connec 750 415 4 Channel Digital Input 2 Conductor Connec i Cancel Select the bus module type from your connected bus module and click on its bus module description Confirm your selection by clicking on OK In this manner you can delete a bus module Move the mouse pointer in the graphic node display to the bus module you wish to delete or to its bus module description in the Now list Click on the right hand mouse key The following menu window appears Delete module T Specify module P Details Click on the menu point Delete clamp The removed bus module has not been deleted from the graphic pre
151. tomatically transmitted following a reset SNVT Abbreviation for Standard Network Variables Types SNVTs spoken sneevits are standardized default variables types for network variables There is anumber of SNVTs e g SNVT_lux SNVT_temp SNVT_ switch etc Also refer to Network variable SNVT Master list A list of all defined SNVTs published by the LonMark Association The currently most updated version of the SNVT Master list is version 10 It can be downloaded from the internet under http www lonmark org SNVT Structure A structure is a data type consisting of several elements used to define a complex SNVT TimeOut Each network input variable with a default TimeOut time has to be updated at latest the set time has elapsed If the value of the NVI has not been updated after the set time the attendant output changes to a defined preferential position preferred state Tooltip When the mouse pointer is set on a symbol assigned a tooltip a small window appears giving a brief description of the symbol WAGO TOPLON PRIO maco 162 e Glossary The most important SNVTs WAGO I O PRO 32 WAGO I O PRO is a programming and visualization tool for control programs working according to the ZEC 61131 3 standard This software is used to develop the PLC applications for the programmable fieldbus Controllers of WAGO I O SYSTEM 750 WAGO I O SYSTEM The WAGO I O SYSTEM consists of various components that can be u
152. tructure 90 6 compare LonMark File transfer ftp transfer SNVT_file_req Structure File transfer 73 12 compare LonMark ftp transfer SNVT_file status Structure File transfer 74 27 compare LonMark ftp transfer 8 3 1 10 Heating Ventilation Air conditioning HVAC SNVT_hvac_emerg enum 103 1 Emergency operating mode of an HVAC objects Heating Air conditioning cooling 0 Normal operation l Overpressure 2 Underpressure 3 Emergency maco WAGO TOPLON PRIO SNVT Details 143 The most important SNVTs reduction 4 Emergency stop Oxff NUL SNVT_hvac_mode enum 108 1 Operating mode of an HVAC object 0 automatic mode 1 only heating 2 heater off reduction for the night 3 only cooling 4 cooling for the night 5 preliminary cooling 6 automatic off 7 system test 8 emergency heating 9 ventilator after run Oxff NUL SNVT_hvac_overid Byte 0 111 5 Over range mode Over range mode Byte 1 2 0 no over SNVT_lev_percent range Byte 3 4 SNVT_flow 1 use value in percent position value 2 use Flow value 1 s 3 use value in percent flow value 4 open position 100 5 closed position 0 6 configured minimum value 7 configured maximum value Oxff NUL WAGO TOPLON PRIO wWAGOo 144 SNVT Details The most important SNVTs
153. tton appears on the right hand side of the table cell Click on this button A selection menu appears showing the allowed settings 10 Select the desired preferred state 11 To enter a default NVI assessment click on the corresponding cell in the NVI assessment table A small button appears on the right hand side of the table cell Click on this button A selection menu appears showing the allowed settings 12 Select the desired setting 13 In the right hand bar click on the Apply button WAGO TOPLON PRIO Configuration 73 Software Configuration 4 3 3 5 Als Um die Einstellungen f r die analogen Eing nge festzulegen w hlen Sie in der linken Leiste die Gruppe Als To define the settings for the analog inputs select the Als group in the left hand bar The table in which you can proceed with your desired AI settings now appears in the center section of the dialog window When the Standard user level is selected in the options dialog a total of six columns are displayed If you have selected the Expert user level two additinal columns are mapped in The description of the operating surface includes the more comprehensive user level Expert The decimation for the Standard user level is clearly pointed out Expert user level 10 Configuration Subsystem_1 Apply Refresh WAGO TOPLON PRIO MAGO
154. tweight Client A download with a Full Client is only possible via TCP IP not via FTT or LPT 7 1 Remote Full Client maco If the Remote Client fulfils the functions of a Remote Full Client the network communication with the LNS server can be made via Free Topology Powerline or Ethernet LONWORKS IP However an acces via the server is always essential since TOPLON PRIO supports Configuration Properties CPs As soon as the server is operating a device fieldbus node can be configured or the configuration be changed with a Full Client The components need to be in the online mode Note gt Should an error message appear when starting an existing project with a Remote Full Client then the project was created or opened using an older version of TOPLON PRIO and a conversion is required to update the data structure To do so all devices of the project are locally started and saved on the LNS server first Then The project can be started and edited in the Remote Full Client WAGO TOPLON PRIO Remote capability 133 Remote Lightweight Client There are several ways to connect a Remote Full Client to the LNS Server The simplest way is to use the LNS network interface However a hex download via FTT or LPT is not possible Attention Access via a Free Topology Transceiver FTT or a Link Power Transceiver LPT allows no Hex download 7 2 Remote Lightweight Client If the Remote Client fulfils the functions
155. u can enter the desired name for each digital input Column 3 Connected to In this column you can connect the desired network output variable to each digital input for communication via the network For this purpose all NVOs available to you on the basis of your device template selection are listed in a selection menu The attendant SNVT for each NVO is stated in brackets No default NVO is connected Note gt You can define the SNVTs for the network output variables in the settings of the NVOs column Type Column 4 Element In this column you can connect a certain element of the SNVT from the selected NVO to the corresponding digital input For this purpose all elements of the connected SNVT are available to you in the SNVT details window which is automatically polled No default element is connected Note gt The connection of an SNVT element is only necessary with SNVTs defined by a structure Column 5 ON value In this column you have the possibility to define an ON value for desired digital inputs This value is to be transmitted by the connected network output variable as soon as the corresponding input is activated The top limit value of the validity area of the SNVTs or of the SNVT elements is given as a default Column 6 OFF value This column allows you to define an OFF value for the desired digital inputs This value is to be transmitted by the connected network output variable as soon as the co
156. ug in provided that this configuration is saved with the file suffix tpi Export Saving of all current node configurations into a file with the file suffix tpi Exit To terminate WAGO TOPLON PRIO The current configuration of the node is however maintained 3 2 1 2 View menu maco View Node Alt N 3 Browser Alt B Fig 5 View menu g912373e Menu entry Description Node Display hide the node info window Standard setting Display of the node info window Browser To poll the browsers in the OnLine mode WAGO TOPLON PRIO View 21 Menu bar 3 2 1 3 Extras menu Extras i Options Alt O Fig 6 Extras menu g912330e Menu entry Description Options Opens the options dialog See Options dialog 3 2 1 4 Configuration menu Configuration Ou Hardware Alt H Software Alt K Fig 7 Configuration menu g912375e Menu entry Description Hardware To poll the dialog window for hardware configuration Software To poll the dialog window for software configuration Delete Deletes the current configuration 3 2 1 5 Menu WAGO IO PRO Attention The menu point WAGO IO PRO is only provided for a fieldbus node with fieldbus controller 750 819 as a head end WAGO10 PRO Open SYM file Open Download WTC file Gd Download IEC 61131 Application Configuration IEC 61131 Fig 8 Menu WAGO IO PRO g9123a4e Menu entry Description Open SYM file To pol
157. value of the analog output is to be maintained With Write value if equal with default mask if not value 0 you can define that the network input variable value for the connected SNVT element is only conditionally to be put out to the output i e only if all values which the NVI transmits for the unconnected SNVT elements coincide with the values that you have defined in the Default Mask beforehand If only one of these values does not agree the value of the analog output is to be is to be set to 0 inactive Default setting Write value Example You have connected the element value to your analog output of a network input variable type SNVT_ switch You select e g the setting Write value if equal with default mask if not value 0 In the dialog window Default_Mask you can now define the value 1 for the unconnected element state You can carry out this definition also in the Default Mask column The values also transmitted for the element value are ignored for as long as the network input variable for the element state does not transmit the value 1 The output retains the value 0 inactive As soon as the network input variable for the element state transmits the value 1 the value for the element value is assigned to the output WAGO TOPLON PRIO WAGO TOPLON PRIO Configuration 83 Software Configuration Column 9 Default Mask Attention The Default Mask column is mapped out in
158. wWAGOo 46 Configuration Software Configuration 4 3 Software Configuration 4 3 1 Creation of an Operating Surface The possible settings for a software configuration depend on the individual head end that TOPLON PRIO has found in your fieldbus node As such a different dialog window opens The dialog window for the fieldbus coupler 750 319 offers you the Remote I O RIO function i e the direct module representation on the network variable Therefore in this dialog window you can proceed with the setting of the network variable Inputs and Outputs and with the setting of the digital and analog inputs and outputs In contrast the dialog window for a controller 750 819 with IEC 61131 application offers you the Programmable Remote I O PRIO function 1 e the presentation of the variable declared by you on the network variable For this reason you can perform the setting of the network variable Inputs and outputs and the setting for your own declared input and out variables in ths dialog window You reach the individual dialog window of the software configuration in the main mask via the menu Configuration Software or in the symbol bar via the Configuration software symbol o 10 Configuration Subsystem_1 NVI No Networkvariable Type SNVT ID Lenath in bytes TimeOut s De nvi00 SNVT_str_asc 31 Bytes 36 31 0 0 2 nvi01 SNVT_strasc 31 Bytes 36 mvd SNVT_st_asc 31 Bytes 38 nvi03 SNVT_strase
159. ware Configuration 4 3 4 3 How to set the Bool_INs maco 1 2 In the Name column select the desired Boolean input variable to be set To connect a network output variable to the Boolean input variable click on the corresponding cell in the Connected to column A small button appears on the right hand side of the table cell Click on this button A selection menu appears containing all available NVOs To select the desired NVO use the scroll bar to move up or down the selection menu and click on the desired NVO A window opens showing the SNVT and if applicable the elements of this SNVT of the selected NVO Click on the SNVT or on the desired element of the SNVT in displayed directory tree structure then click on the OK button A window opens permitting the entry of a default ON value Enter the desired OFF value and click on the OK button A window opens permitting the entry of a default OFF value Enter the desired OFF value and click on the OK button The window closes and your settings are displayed in the table To be able to change individual settings click on the corresponding table cell to be changed A small button appears on the right hand side of the table cell Click on this button A window opens for you to make the desired setting In the right hand bar click on the Apply button WAGO TOPLON PRIO Configuration 91 Software Configuration 4 3 4
160. xplanations of the specific terms please refer to the Glossary at the end of this manual WAGO WAGO TOPLON PRIO Review Information on this manual 1 1 4 Symbols and markings Text of special importance is highlighted by the following symbols and markings 4 gt bold italic bold italic Courier Attention Adhere to the given information in all cases to smoothly realize your projects with WAGO TOPLON PRIO Note Useful tips and important hints to be observed for the efficient use of WAGO TOPLON PRIO Further information Cross references to additional literature manuals data sheets and INTERNET pages Instructions serving the execution of actions and important names and terms such as names of buttons are written in bold letters e g OK Names of paths and files are marked in italic e g C Programs WAGO TOPLON Menu points are highlighted in bold italic e g Save A backslash between two names characterizes the selection of a menu point from a menu e g File New The print font for program codes is Courier e g typedef struct 1 1 5 Representation of the number systems 7 Number system Example Remark Decimal 100 standard notation Hexadecimal 0x64 C notation Binary 100 in inverted commas 0110 0100 nibble separated by a dot WAGO TOPLON PRIO 8 e Review Information on this manual 1 1 6 Abbreviations maco I O DI
161. your hardware is possible either online i e with the fieldbus node configuration connected or offline without a physically present fieldbus node You go to the dialog window of the hardware configuration in the main mask via the menu point Configuration Hardware or in the symbol bar via the Configuration Hardware Wu symbol o nodel Subsystem_1 analog output 8 analog input 12 digital output 16 Selection Item No Description Z o o Z l 750 411 2 Channel Digital Input Filter 0 2ms 1750 412 2 Channel Digital Input Filter 3 0ms Close 0750 414 4 Channel Digital Input 2 Conductor Co Sieh deans 750 415 4 Channel Digital Input 2 Conductor Co 750 452 2 Channel Analog Input 0 20m4 750 454 2 Channel Analog Input 4 20m4 9760 456 2 Channel Analog Input 10V 750 461 2 Channel Input PT 100 RTD 750 462 2 Channel Analog Input Temp 0 20m4 8750 465 2 Channel Analog Input 0 20m The dialog window is subdivided into three main areas e The top area has a window section with the heading Selection This section contains a list of bus module types of the WAGO I O SYSTEM 750 that are supported The right hand window section with the heading Now contains a list of the bus module types which have already been selected for the configuration of your node In parallel beneath the title line you are permanently displayed the current number of analog and digital
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