LIOB-10x/x5x User Manual
Contents
1. Figure 93 LIOB 103 153 453 553 16A 6A relays 14 3 5 External Relays and Inductive Loads When controlling an external relay or inductive load using a L IOB relay either an integrated suppressor circuit must be used for the inductor or a free wheeling diode a varistor RC circuit etc must be installed to suppress voltage peaks and sparking due to switching off inductive circuits It is recommended to use diodes that part of the 1N400x family and to place them close to the relay as shown in Figure 94 Figure 95 shows the connection of a 230V relay with a varistor COM 24V DC Varistor T Ll i 4 e g 20K250 L __ __ __ _ __ 4 Figure 95 Suppressor circuit with varistor 14 3 6 1A Triacs Figure 96 shows the wiring of the 1A Triac Outputs Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 141 LOYTEC 1A Rating 24 230V AC m 50 60 Hz Figure 96 1A Triacs 14 3 7 12V Analog Outputs Figure 97 shows the wiring of the 12V analog outputs AO Observe that the analog outputs are labeled 0 10V OUT but are in fact capable of delivering up to 12V 0 12V 10 Input Load 1 Figure 97 12V analog outputs The input impedance of the connected load must be greater than or equal to 4 7 kQ for linear output Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 12. 45 Device Monitoring and 45 4 3 1 Device Monitoring and Replacement L INX Mode 45 4 3 2 Device Monitoring and Replacement LONMARK Mode 45 4 3 3 Device Replacement BACnet Mode esee 45 5 L IOB LCD Display sssssssssssssssssssssssssssssssssssssssssssssssnscssssssssessssssssesssssssseeesee46 5 1 52 5 3 5 4 5 5 Main Page of LIOB 55x BACnet Mode eere eene tnnt 46 Main Page of LIOB 10x 15x 45x I O Overview Page 47 Manual Quick Edit Mode e eere esee eere ee eee ee eee tn eese ee tn aee a 48 Device Information and Configuration LIOB 10x 15x 45x 48 Configuration eere cete eese eese eese sosta setas ease ease tas ense tasa 50 6 L IOB Web Interface 1 45 55 DD 6 1 6 2 Version 4 8 Device Information and Account Management eeeeeeee eee ee teen 52 Device Configuration eese eese eese eee ette eene enne tn aetas etas etas eta 54 6 21 System Cone uranon ioc oso eR Ie roni ee EDU PEE Des 54 LOYTEC electronics GmbH LIOB 10x x5x User Manual 5 LOYTEC Version
3. 132 13 Froublesh Gotu g 1 3 13 1 Technical Support ccsccscsscssssssssscsscsscescsssscsscsnsccsscssessessnessssnessessessoseeses 133 14 Application Notes RT L34 14 1 14 2 14 3 External Power Supply not using LPOW 2415A 134 Physical Connection of Inputs 4 eee esee ee etes eese eene etta setas 134 14 2 1 Connection of Switches Sansinenea REER 134 14 2 2 Connection of SO Pulse Devices 135 14 2 3 Connection of Voltage Sources to Universal Inputs 136 14 2 4 Connection of Voltage Sources to Digital Inputs 136 14 2 5 Connection of 4 20mA Transmitters to Universal Inputs 137 14 2 6 Connection of Resistive 137 14 2 7 Connection of STId Card 138 Physical Connection of Outputs c eee eee eere eese eese eese tatonato 138 14 3 1 6A Relays on LIOB 100 Built in Fuse eene 138 14 3 2 6A Relays with One External Fuse eee 139 14 3 3 6A Relays on LIOB xx2 using Separate Fuses esses 139 LOYTEC electronics GmbH LIOB 10x x5x User Manual 9 LOYTEC Version 4 8 14 3 4 16A an
4. cesse esee ee ette seen een eene 146 Specification for LIOB 15x Models cesse esee ee eren ette eene n etna tnattn 147 Specification for LIOB 45x 148 Specification for LIOB 55x 149 INE EIL 18 Revision otras endet ll OL LOYTEC electronics GmbH LIOB 10x x5x User Manual 11 LOYTEC Abbreviations AST eed epp Alarming Scheduling Trending BACnet inco Building Automation and Control Network CEA 700 Protocol standard for LONWORKS networks CBA 852 etre nne Protocol standard for CEA 709 over IP networks COV Change Of Value M Configuration Property CS d eee euet tende Configuration Server that manages CEA 852 IP devices DHCP ecient sete Dynamic Host Configuration Protocol RFC 2131 RFC 2132 Input Output IALO i Rer LOYTEC I O bus s ete Media Access Control Network Address Translation see Internet 1631 NTO D Negative Temperature Coefficient Temperature Sensor NV EEE Network Variable uteri Open Process Control PIC nnne Leeds Positive Temperature Coefficient Temperature Sensor SGPT Standard Configuration Property SNV T ame Standard Network Variable
5. 20 hi poire 21 Terminal Lay D 21 344 1 LIOB 100 rre reir ees 22 3 4 2 LIOB z10T Taiana eee eee edel eee 23 CN ESBISISI UE a 24 SAA CLIOB z109 i ioco soiree t pene op eene 25 34 5 LIOB 150 4 erstes ette eee eter eee e tete deos 26 3 4 6 EIOB 1 T5 ee edet nete eee di pee teet nee 27 3AT LIOB 152 C 28 3458 LIOB 153 5 eei Resto e ERR RN SER eet dp cens 29 3 49 LIOB 154 4 niet ee tette tee ere p tt RNE 30 3 4 10 LIOB 450 550 ciesisbiee desciende ee eee s ede dpi 31 3 44 11 LIOB 451 551 iiie eere e hee ete ee heres 32 3 4 12 LIOB 452 552 sedes ito iere e d eB eee pee sl re ove 33 34 13 LIOB 453 553 ceste tee ie eme ecrire e eer 34 3 44 LIOBZA2 eerte ete n ger ee beber esee e eger eee ne een 35 Power Supply and Wiring eeeeee eee sees ee esee ee seen ene en netos etas etn setas eta sno 35 3 5 1 LIOB Connect without 36 LOYTEC electronics GmbH LIOB 10x x5x User Manual 4 LOYTEC 3 6 3 7 3 5 2 LIOB Connect with Extension eeeeeeeeeeeeenreneren enne 37 3 5 3 LIOB FT in Free Topology eene ene 37 3 5 4 LIOB FT in Bus Topology ieie a a a a e nennen 38 3 5 5 CEA 709 Network Connection in Free Topology or Bus T
6. CSV Files CSV delimiter 6 2 Save CSV Settings GetCSV Settings Remote Configuration Request remote config Disabled Save Remote Config GetRemote Config Figure 36 System Configuration Page e g for Vienna Austria The next section on the page allows configuring the device s earth position This setting defines the longitude latitude and elevation of the device The latitude and longitude are entered as degrees minutes and seconds The altitude is entered in meters height above sea level This setting is used for an astronomical clock For fixed locations such as a building the position can be entered on this page For generating CSV files for trend logs alarm logs etc the delimiter for those CSV files can be configured This setting can be changed between a comma and a semi colon The change takes effect immediately for all files generated by the device For an automatic restore from LWEB 822 900 the Request remote config option must be enabled 6 2 2 Backup and Restore A configuration backup of the device can be downloaded via the Web interface Press the backup link as shown in Figure 37 to start the download The device assembles a single file including all required files A file requestor dialog allows specifying the location where the backup file shall be stored To restore the device settings simply select a previously generated backup file in the Rest
7. 0v 0 E 40 C 40 C 40 C 40 C 40 C 40 C 10Hz 40 CLOS 4 2949 CLOS 10 CLOS 100 CLOS CLOS CLOS p 100 100 100 100 100 100 100 100 100 100 25 25 C 5T 25 25 C ac 25 C 25 C 25 25 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 Os Os Os 0s Qs Os 5s 5s Os Qs Qs Qs Os Os Os Os 1s 1s Os Os AS 1s 1s Ua 1s 1s 1s 1s SAS Ao EP PS Q xo ES E SOE FE FF A 8 a 05s 05s 05s 05s 05s 05s 05s LOYTEC LWEB 821 Master Parameter Editor ready View test 1 devices 73 parameters Connected to 10 101 17 70 as admin Figure 63 LWEB 821 900 Master Parameter Editor Using this software L IOB parameters can easily be set for multiple L IOB host devices in a system without having to change the L IOB host project for each L IOB host in the Configurator 9 7 Data Points LONMARK Mode This section describes the network data points provided by a LIOB 15x or LIOB 45x device in LONMARK or Non ECS device mode Since the L IOB device acts as a common CEA 709 node in these device modes the data points are represented as network variables NVs and configuration properties CPs These NVs and CPs are organized in functional blocks which form the CEA 709 interface of the node All CPs are implemented as files CPT CPC CPV files and configured in the L INX Configurator S
8. Version 4 8 Figure 17 LIOB 153 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 9 LIOB 154 LOYTEC The LIOB 154 is either connected to the L INX via the LIOB FT bus LIOB FT device mode or to any CEA 709 network LONMARK Non ECS device modes The terminal layout of the LIOB 154 is shown in Figure 18 Buttons STATUS Status Button RESET Reset Button 19 20 21 22 23 24 25 26 27 28 2930 31 POWER DIGITALOUT PRESSURE LIOB FT STATUS 7 STATUS LED DISPLAY DIAL UNIVERSAL IN 0 10 V OUT 12 3 4 5 6 7 8 9 1011121314 15 16 17 18 RESET GND GND GND DIAL Turn and Push Dial al oor n Connectors Connectors UNIVERSAL 1 Input UI1 POWER 119 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24V 5 Input GND TP FT 10 21 LIOBFT Input A 6 Input Ul4 CEA 709 22 LIOB FT Input B 7 Input UIS DIGITAL 23 Output 001 8 Input GND OUTPUT 24 Output DO2 9 Input UIG RELAY 25 Output DO3 10 Input UI7 6A 26 Output 004 11 Input GND 27 Output DOS 28 Output Common ANALOG 13 Output AO1 29 Output 006 OUTPUT 14 Output GND 30 Output Common 0 10 V 15 Output AO2 31 Output DO7 16 Output AO3 PRESSURE 22 Pressure Input LOW 17 Output GND 33 Pressure Input HIGH 18 Output AO4 Version 4 8 Figure 18 LIOB 15
9. DIGITAL 13 Input DI 1 33 Output Common for DO8 amp DO9 INPUT 14 Input GND 34 Output DOS 15 Input DI2 ANALOG 16 Output AO1 OUTPUT 17 Output GND 0 10 V 18 Output AO2 Figure 19 LIOB 450 550 terminal layout Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 32 LOYTEC 3 4 11 LIOB 451 551 Version 4 8 The LIOB 451 551 is either connected to the L IOB host via the LIOB IP protocol LIOB IP device mode directly to a CEA 852 network LONMARK Non ECS device modes of LIOB 451 or to a BACnet IP network BACnet device mode of LIOB 551 In all cases the physical connection is done via Ethernet IP The terminal layout of the LIOB 451 551 is shown in Figure 20 GND GND 24V DIS DIG N 019 0110 1920 23 24 25262728 2930 31 32 33 34 ETHERNET DIGITAL IN STATUS RESET q STATUS LED DISPLAY DIAL UNIVERSAL IN DIGITAL IN 1 2 3 4 5 6 7 8 9 10111213 1415 16 17 18 Buttons STATUS Status Button RESET Reset Button GND GND GND DIAL Turn and Push Dial s aD mi did Connectors Connectors UNIVERSAL 1 Input POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24 5 Input GND DIGITAL 23 Input DIS 6 Input Ul4 INPUT 24 Input GND 7 Input UIS 25 Input DIG 8 Input GND 26 Input DI7 9 Input UIG 27 Input GND 10 Input UI7 28 Input DI8
10. eere 06 7 1 7 2 7 3 L IOB Scan and Configuration Run 66 L IOB Remote Access cresce eee eee eee eene seen ness ae 66 L IOB Data Point isssesssscssscecsesvssssesoscossvveessstescessubessossctucsodecdasessestessstectesessees 67 8 L IOB Host Web Interface L INX Mode enne eene ee eo ss OO 8 1 82 8 3 8 4 8 5 8 6 8 7 LIOB IP Bus for LIOB 45x S5x eese eese teen enses etta tatu sta 68 L IOB Installation Page LIOB Connect Bus 69 8 2 1 L IOB Scan and Configuration Run eese 69 L IOB Installation Page LIOB FT IP Bus eeeeeee eren eene en einen nen tnnnn 71 L IOB Device Information and Statistics erect 72 L IOB Overview Page 4 cresce sees eee eee esee seen ettet ta tato setas etas e 72 L IOB I O Test Page C 74 L IOB Data Points eere eee eee entente entente tatu sno 75 D Educ c DNI 9 1 9 2 Technology Independent Data Points BACnet Mode 76 Bus and Device Configuration eee eese esee esee ee een ene ense tn seta setas ta soo 76 9 2 1 Index of first Device not in Daisy
11. 108 9 8 2 Native BACnet Objects for I Os oo eee eeeeeeceeeceeecesecnsecesecnaeeaeeeas 108 Default Configuration sccccsscssscssscssscssscscscscssscssccsscsssssscssssssssesssssesees 110 TO The Configurator eure neta armen Lie 10 1 10 2 10 3 Software Installation eres eee esee eee entere 112 Configuring L IOB Modules L INX Mode eereeeeeeeeeeereee 112 10 2 1 Add L IOB Modules eere enne enne 112 10 2 2 Conhigure OS reir epe piri 113 10 2 3 Manage L IOB Configurations essent 114 10 2 4 Using L IOB Data Points sesenta 116 10 2 5 Upgrade Firmware tette rtr ei eI ite rette 117 10 2 6 Printing L bels n uneco Seo hReRO e Hehe PRIORE 118 Configuring L IOB Modules LONMARK Non ECS device mode 119 10 3 1 Connecting to a L IOB Module serene 119 10 3 2 LAOB Device Set ngs nono oe OUR PHP Eee 121 10 3 3 Confiture TOS iet em ero bm fees 121 10 3 4 Manage L IOB Configurations essere 122 10 3 5 Up and Download of Configurations see 123 LOYTEC electronics GmbH LIOB 10x x5x User Manual 8 LOYTEC Version 4 8 10 4 10 3 6 Using L IOB Data Points essere 123 10 3 7 Upgrade Firmware eeeeeseseeeseeeeee eene enne 123 10 3 8 Backup and Restote icem
12. IN Analog Digital 10V 20 22 C Auto OK L WEB WY Ul NTC1K8 IN Analog Digital 10V 25 23 C Auto O Ul Ni1000 Ul5 IN Analog Digital 10V 2 03 C Auto B Linear U6 IN Analog Digital 10V 28 85 C Auto e Ul Frequency IN Analog Digital 10V 0 00 Hz Auto OK Ul Trans Table Ul IN Analog Digital 10V 39 96 C Auto Contact DI Digital IN Digital OPEN Auto OK Logout DI Pulse Cnt 012 IN Digital 0 00 Auto OK AO_Digital AO1 OUT Analog 12V OFF Auto OK AO Analog AO2 OUT Analog 12V 0 00 V Auto OK DO Digital DO1 OUT Relais 6A OPEN Auto OK DO PWM 002 OUT Relais 6A 000 Auto OK manual DO3 OUT Relais 6A OPEN Manual OK override 004 OUT Relais 6A OPEN Override OK disabled 005 OUT Relais 6A OPEN Disabled OK unused DO6 OUT Triac OPEN Auto OK unused OUT Triac OPEN Auto OK Figure 5 Checking L IOB inputs and outputs on the Web UI 2 2 Quick Start Guide LONMARK Mode Observe that this quick start guide only covers the LONMARK device mode of LIOB 15x 45x models see Section 4 1 2 2 1 Hardware Installation A LIOB 15x I O module in LONMARK device mode is connected to a CEA 709 network using the FT port of the L IOB device A LIOB 45x I O module in LONMARK device mode is connected to CEA 852 network using the Ethernet IP port of the L IOB device see Chapter 4 In both cases the device must be powered e g using an LPOW 2415A power supply 2 2 2 Commissioning
13. User Defined Configuration Property UT EEE retten een User Interface Additionally the following abbreviations are used for the L IOB device modes L INX Mode Refers to the LIOB Connect device mode LIOB 10x models the LIOB FT device mode LIOB 15x models and the LIOB IP device mode LIOB 45x 55x models A L IOB host is needed e g L INX device LONMARK Mode Refers to the LONMARK and non ECS device modes LIOB 15x 45x models In these modes the LIOB 15x 45x devices act as independent nodes on a CEA 709 network A L IOB host is not needed BACnet Mode Refers to the BACnet device mode of the LIOB 55x models In this mode the LIOB 55x devices act as independent nodes on a BACnet IP network A L IOB host is not needed Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 13 LOYTEC 1 Introduction 1 1 Overview Version 4 8 The L IOB I O modules LIOB 10x LIOB 15x LIOB 45x and LIOB 55x provide physical inputs and outputs I Os either through a CEA 709 connection a BACnet IP connection or a direct connection to a L IOB host e g L INX automation server The I Os can e g be used as data points in the IEC 61131 program running on the L IOB host The L IOB I O modules come in different models with different I O configurations including analog outputs digital outputs digital inputs and universal inputs which can be freely configured Fi
14. dropped 0 TCP IP Statistics Total IP packets received 11768900 Total IP packets generated here 839142 Total TCP packets sent 971 Total TCP data packets sent 632 Total TCP data bytes sent 520668 Total TCP packets received 757 Total UDP packets received 11767562 Total UDP packets sent 838155 Update IP statistics Figure 46 IP Statistics Page 6 3 3 CEA 852 Statistics LIOB IP or LONMARK Mode The CEA 852 statistics page displays the statistics data of the CEA 852 unit on the device The upper part of the CEA 852 statistics page is depicted in Figure 47 To update the statistics data press the button Update all CEA 852 statistics To reset all statistics Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 63 LOYTEC counters to zero click on the button Clear all CEA 852 statistics The field Date Time of clear will reflect the time of the last counter reset Version 4 8 Logged in Clear all CEA 852 statistics Update all CEA 852 statistics dmin 5 c Seconds since cleared 26 9 Date Time of clear GMT Mon Jul 9 07 20 54 2012 Device Info No of registered members 2 Config LT Packets received 56 2 LT Bytes received unknown Statistics Z 5 LT Packets sent 56 N LT Bytes sent unknown x IP Packets sent 56 IP Bytes sent 2283 IP Packets received 56 t IP i 1968 Reset U Bytes received 6 e IP Packets data sent 0 Contact IP Packets data received
15. Config Server Addr LONMARK Mode of LIOB 45x here the user can configure the IP Address of the CEA 852 Configuration Server the LIOB 45x device in LONMARK device mode shall become a member of All further CEA 852 settings can be made in the L IOB Web UI see Section 6 2 7 Save IP Settings LIOB 45x 55x models here the user can confirm the IP settings A device reboot will be performed automatically Ethernet Status LIOB 45x 55x models shows the current Ethernet link status and connection speed Station ID L INX Mode shows the station ID 1 24 within the logical daisy chain of L IOB devices on this L IOB bus For LIOB FT IP devices LIOB 15x 45x 55x models the user can edit this field to setup the order of L IOB devices Start Config Run LIOB FT IP device mode here the user can request a configuration run from the L IOB host At the end of the configuration run the L IOB device will either be set online or an error message will be displayed e g if no configuration is available for the requested station ID or the ID is already taken Domain Length Domain Subnet Node Set CEA709 Mode LONMARK Mode with these properties the user can get a LIOB 15x 45x device online on a CEA 709 network without the need for a network management tool Device Name name of the L IOB device Product Code L IOB model e g LIOB 100 Device Status shows the current status of the L IOB device offline online in configuration
16. 152 and 153 Models Changed Normal mode to Auto mode es Initial Version ies Section 5 2 Added common terminals and terminal numbers Section 5 3 New user interface for quick edit and manual mode Section 5 4 Added host information Section 5 5 Added raw value Section 9 3 4 for analog and PWM outputs 0 is always off Sections 9 3 14 amp 9 6 3 Added PulseTime Chapter 10 Added new Configurator functions Added LIOB 15x LONMARK and Non ECS device modes Added LCD language setup New Section 7 2 L IOB Remote Access 2011 07 29 Section 5 4 Added L IOB reset option manual logout and commissioning Section 9 3 12 Added L IOB host disconnect behavior New Section 9 4 Switch Mode LONMARK Mode New Section 9 9 Default Configuration New Section 10 2 6 Printing Labels 2012 01 12 2 0 1 2012 02 03 AB Minor Corrections Added Section 4 2 2 Device Installation LIOB FT IP device mode gt ies Added Interpretations Clock Card Data Fading and Ramping in Section 9 3 4 Added Section 9 3 7 DeadTime for Fading and Ramping Added Section 9 3 10 IOFunc GroupNumber and SubGroupNumber for Card Reader Mode Added Section 9 5 STId Card Reader Mode Added LIOB 154 model and LIOB 45x models Corrected LED patterns in Section 3 5 8 2012 07 09 N N N N gt gt w es Added counting input options in Section 5 5 Corrected I O specificatio
17. This NV provides feedback for the switch mode see Section 9 4 9 7 5 2 Output Network Variables Version 4 8 nvoInValue changeable This is the main value of the input It represents the currently measured value of the input The type of the NV is determined by the SCPTnvType CP see Section 9 7 5 4 nvoInManual changeable This NV is updated whenever the value of the input in manual mode is changed on the L IOB LCD Display The type of the NV is determined by the SCPTnvType CP see Section 9 7 5 4 nvoInPulseTime SNVT time f This NV represents the time between the last two pulses for signal interpretation Pulse Count or Physical Unit Count see Section 9 3 4 This can be used to quickly detect a change of the derivative of the physical value e g a change of the electric power if the measured physical value is electric energy Note that the PulseTime NV must be activated via the PulseTime flag see Section 9 3 14 nvoInLink UNVT io link This NV is only used internally by the Configurator software and is not required during normal operation LOYTEC electronics GmbH LIOB 10x x5x User Manual 104 LOYTEC 9 7 5 3 Read Only Configuration Properties SCPTobjMajVer major version of object SCPTobjMinVer minor version of object SCPTmaxNVLength maximum length of changeable type NVs 4 UCPTioHwType hardware type of physical input see Section 9 3 2 UCPTioHwFlags hardware flags reserved for future use 9 7
18. as the default administrator password The Config menu opens Click on Passwords in the Config menu which opens the password configuration page as shown in Figure 35 The device has three user accounts 1 guest allows the user to view certain information only e g the device info page By default the guest user has no password 2 operator is able to read more sensible information such as calendar data 3 admin has full access to the device and can make changes to its configuration Note that the user accounts are also used to log on to the FTP and Telnet server Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 54 LOYTEC LIOB 450 Logged in as admin 2012 07 05 09 18 04 Enter the desired password for the Administrator and Guest accounts The Administrator has full access to the device whereas a Guest can only view the status information but not change the configuration In order to clear a password leave the password field empty Account admin Device Info Config New password Retype password System m Passwords Change password Statistics Reset networks under control Contact Logout Figure 35 Password Configuration Screen Please change the administrator password in order to protect yourself from unwanted configuration changes by anyone else To do so select the admin account in the drop down box and enter the new password If the administrator password is lef
19. C ambient Storage Temperature 10 C to 85 C Humidity non condensing operating storage 10 to 90 RH 50 C Environmental Protection TP 40 enclosure IP 20 screw terminals Power Supply 24 VDC 24 VAC 10 Installation DIN rail mounting EN 50 022 Interface 1 x IP 852 or LIOB IP configurable Types LIOB 450 LIOB 451 LIOB 452 LIOB 453 LIOB 454 Power Consumption W 1 7 2 6 all Relays on 1 7 1 7 2 7 1 7 72 5 not yet available Universal Input UI 8 8 6 6 not yet available Digital Input DI 2 12 not yet available Analog Output AO 2 6 6 not yet available Digital Output DO 8 4 x Relay 4 x Triac 8 8x 5 4 x Relay not yet available Relay 16A 1x Relay 6 A Digital output specification Relay 6 A Relay 6 A Relay 16 A not yet available Triac 1 A 24 230 VAC and 6 A Internal shunt available for UI5 amp UI6 015 amp UI6 UD amp UI UD amp UM not yet available current measurement UI7 amp UI8 017 amp 018 015 amp 016 UI5 amp 016 Supported STId card 3 2 1 readers Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 149 16 7 Specification for LIOB 55x Models LOYTEC Dimensions mm 107 x 100 x 75 Lx Wx H Operating Temperature 0 C to 50 C ambient Storage Temperature 10 C to 85 C Humidity non condensing operating storage 10 to 90 RH 50 C Environm
20. Count Start Value LOYTEC electronics GmbH LIOB 10x x5x User Manual 52 LOYTEC 6 L IOB Web Interface LIOB 45x 55x The LIOB 45x 55x models come with a built in Web server and a Web interface to configure the device and extract statistics information The Web interface allows configuring the IP settings CEA 852 BACnet and other settings 6 1 Device Information and Account Management In a Web browser enter the default IP address 192 168 1 254 of the device Note that if your PC has an IP address in a subnet other than 192 168 1 xxx you must open a command tool and enter the following route command to add a route to the device To Add a Route to the Device 1 Windows START gt Run 2 Enter cmd and click OK 3 Inthe command window enter the command line route add 192 168 1 254 COMPUTERNAME In Windows7 replace COMPUTERNAME with the PC s actual IP address 4 Then open your Web browser and type in the default IP address 192 168 1 254 5 The device information page should appear as shown in Figure 33 The device information page shows information about the device and the current firmware version Below it shows operational parameters such as free memory CPU load system temperature and supply voltage The page also includes the unique node ID Neuron IDs of the CEA 709 network interfaces This page can also be used to send the CEA 709 service pin messages This is a useful feature when commissioning the
21. SNVT switch only Same as Set State but only if the feedback state member is 1 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead LOYTEC electronics GmbH LIOB 10x x5x User Manual 88 LOYTEC e Set Value and Set Feedback State to 0 SNVT scene SNVT setting only The value is sent out as specified and the feedback state member is internally set to 0 e Set Value and Set Feedback State to 1 SNVT scene SNVT setting only The value is sent out as specified and the feedback state member is internally set to 1 e Set Value and Set Feedback State to 0 if Feedback State is 1 SNVT scene SNVT setting only Same as Set Value and Set Feedback State to 0 but only if the feedback state member is 1 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead e Set Value and Set Feedback State to 1 if Feedback State is 0 SNVT scene SNVT setting only Same as Set Value and Set Feedback State to 1 but only if the feedback state member is 0 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead When using the conditional modes if Feedback State is 0 1 it must be made sure that the feedback network variable of the input always represents the current state of the object which shall be controlled There
22. Use the appropriate L IOB template of your LNS based network management tool e g NL 220 or LonMaker to create and commission a L IOB device in the database Once the device is created the Configure function of the network management tool can be used to invoke the Configurator Software 2 2 3 Configuration Configuration of the L IOB devices is achieved using the L INX Configurator software see the corresponding user manual 1 After startup the Configurator will show the LIOB Device tab as depicted in Figure 6 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 18 LOYTEC LIOB Device 1 0s Import Template Export Template Upgrade Template Translation Tabs Device Parameters Nr 2 Parametername Paremetervalue Description 0 ProductCode LIOB 150 Product code of device 1 DeviceName _ LIOB OG3 Device name 2 PinCode PIN code empty or Oto disable 3 AkemativeUnt O SI US unit setting 4 Language English Language setting for LCD display 5 GrouplnMinSen 0 Minimum wait time between updates of digital group input NV rate limitation 6 GroupinMaxSe 0 Maximum time between updates of digital group input NV heart beat 7 GroupOutFBMin 0 Minimum wait time between updates of digital group output feedback NV rate limitation 8 GroupOutFBMa 0 Maximum time between updates of digital group output feedback NV heart beat Figure 6 LIOB D
23. Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 8 LIOB 153 LOYTEC The LIOB 153 is either connected to the L INX via the LIOB FT bus LIOB FT device mode or to any CEA 709 network LONMARK Non ECS device modes The terminal layout of the LIOB 153 is shown in Figure 17 DO1 DO2 DO3 DO4 DOS DO1 DO2 DO4 DOS 19 20 21 22 POWER 23 24 25 26 27 28 29 30 31 32 DIGITAL OUT STATUS DISPLAY STATUS LED DIAL UNIVERSAL IN 0 10 V OUT 123456789 1011213141516 17 18 Buttons STATUS Status Button UM RESET Reset Button GND ND DIAL Turn and Push Dial ues bir ud ACS Connectors Connectors UNIVERSAL 1 Input UI1 POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24V 5 Input GND TP FT 10 21 LIOB FT Input A 6 Input Ul4 CEA 709 22 LIOB FT Input B 7 Input UIS DIGITAL 23 Output DO1 8 Input GND OUTPUT 24 Output DO1 9 Input UIG RELAY 25 Output DO2 ANALOG 10 Output AO1 16A 26 Output DO2 OUTPUT 11 Output GND 27 Output DO3 0 10 V 12 Output AO2 28 Output DO3 13 Output AO3 29 Output DO4 14 Output GND 30 Output DO4 15 Output AO4 DIGITAL 31 Output DO5 16 Output AO5 OUTPUT 32 Output DO5 17 Output GND RELAY 18 Output AO6 6A
24. nvoOutPower SNVT_power nvoOutCurrent SNVT current nvoOutVoltage SNVT voltage nvoOutPhase SNVT phase SCPTobjMajVer SCPTobjMinVer SCPTmaxNVLength UCPTioHwType UCPTioHwFlags UCPTswCycleCntlnit SCPTnvType UCPTioDataType UCPTioDispInfo UCPTioName UCPTioOpmode SCPTovrBehave SCPTovrValue SCPTdefOutput SCPTmaxRcvTime SCPTminSendTime SCPTmaxSendTime SCPTsndDelta UCPTioSigInterpr UCPTioSigType SCPToffset SCPTminRnge SCPTmaxRnge UCPTioFlags UCPToffHystRaw UCPTonHystRaw SCPTpwmPeriod UCPTdeadTime UCPTioFunc SCPTrunHrlnit UCPTenergyCntlnit UCPTnominalPower UCPTminSendTimeCnt UCPTmaxSendTimeCnt UCPTminSendTimeRaw UCPTmaxSendTimeRaw UCPToutputExt Figure 66 Output Object Closed Loop Actuator LOYTEC UCPTegXyzVal these eight configuration properties specify the values to be sent out when the corresponding events occur in switch mode see Section 9 4 UCPTegXyzMode these eight configuration properties specify the modes for sending out values when the corresponding events occur in switch mode see Section 9 4 LOYTEC electronics GmbH LIOB 10x x5x User Manual 106 LOYTEC 9 7 6 1 Input Network Variables nviOutValue changeable This is the main live value of the output If it is written the output changes its physical value accordingly in auto mode The type of the NV is determined by the SCPTnvType CP see Section 9 7 6 4 nviOutManual changeabl
25. state member was gt 0 is decreased by the value member of the corresponding configuration property EventGroupXyzValue and sent with the state member specified in the corresponding configuration property The sent value member is not decreased below the value member of the MinValue property see Section 9 3 20 Decrement if Feedback State is 0 SNVT switch only Same as Decrement but only if the feedback state member is 0 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Decrement if Feedback State is 1 SNVT switch only Same as Decrement but only if the feedback state member is 1 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Set State SNVT switch only The last value of the feedback value member when the feedback state member was 0 is sent with the state member specified in the corresponding configuration property EventGroupXyzValue It is made sure that the sent value member stays between the value members of the MinValue and MaxValue properties see Section 9 3 20 Set State if Feedback State is 0 SNVT switch only Same as Set State but only if the feedback state member is 0 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Set State if Feedback State is 1
26. the live value network variable updates it s value according to the configuration properties described below The type of the live value NV is determined by the DataType property see Section 9 3 5 and can be set to Switch SNVT switch Scene SNVT scene or Setting SNVT_setting The following configuration properties are available for each input in switch mode e EventGrouplShortPushMode EventGrouplShortPush Value e EventGrouplShortReleaseMode EventGroup ShortRelease Value e EventGroup LongPushMode EventGroupl LongPushValue e EventGrouplLongReleaseMode EventGroupl LongRelease Value e EventGroup2ShortPushMode EventGroup2ShortPush Value e EventGroup2ShortReleaseMode EventGroup2ShortRelease Value Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 86 LOYTEC e EventGroup2LongPushMode EventGroup2LongPushValue e EventGroup2LongReleaseMode EventGroup2LongReleaseValue Whether EventGroupl or EventGroup2 is active is either determined by toggling between them with one input whenever the input becomes inactive or explicitly by using two inputs see Section 9 4 2 The flow chart of the switch mode is depicted in Figure 62 No Nod Yes Process Process ShortPush LongPush Yes HoldTime gt 0 Yes Yes Yes Y Y No Start Hold Timer SE Mino end Timer N Hold Timer MinSend T Exceeded Excee
27. 0 Lodo LT Stale packets 0 ogou RFC Packets sent 0 Packets received 0 Avg aggregation to IP 1 Avg aggregation from IP 1 UDP Packets sent 56 TCP Packets sent 0 Multi cast Packets sent 0 ended CEA 852 De Session ID Ox57ccc8cd SNTP synchronized no Number of CR member infos 1 Current channel routing mode CR Figure 47 Part of the CEA 852 Statistics Page 6 3 4 Enhanced Communications Test LIOB IP or LONMARK Mode The Enhanced Communications Test allows testing the CEA 852 communication path between the CEA 852 unit on the L IOB device and other CEA 852 devices as well as the configuration server The test thoroughly diagnoses the paths between individual members of the IP channel and the configuration server in each direction Port forwarding problems are recognized For older devices or devices by other manufacturers which do not support the enhanced test features the test passes as soon as a device is reachable but adds a comment that the return path could not be tested A typical output is shown in Figure 48 LIOB 450 Logged in as Restart Enh Com Test Enhanced Communication Test finished guest 2012 07 09 07 19 35 4 c CEA 852 Device Address Result Round Trip Comment 192 168 12 30 1629 CS 2 3 Device Info 192 168 12 30 1628 e 2ms OK Config D 192 168 12 140 1628 4ms OK 192 168 17 110 1628 w 2ms O
28. 11 Input GND 29 Input DIS 12 Input UI8 30 Input GND DIGITAL 13 Input DI16 31 Input DI10 INPUT 14 Input GND 32 Input DI 11 15 Input DI 15 33 Input GND 16 Input Di 14 34 Input DI 12 17 Input GND 18 Input DI 13 Figure 20 LIOB 451 551 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 12 LIOB 452 552 The LIOB 452 552 is either connected to the L IOB host via the LIOB IP protocol LIOB IP device mode directly to a CEA 852 network LONMARK Non ECS device modes of LIOB 452 or to a BACnet IP network BACnet device mode of LIOB 552 In all cases the physical connection is done via Ethernet IP The terminal layout of the Version 4 8 LIOB 452 552 is shown in Figure 21 33 Buttons STATUS Status Button RESET Reset Button DIAL Turn and Push Dial LOYTEC 1920 2324 25262728 293031 32 3334 ETHERNET DIGITAL OUT STATUS STATUS LED DISPLAY DIAL UNIVERSAL IN 0 10 V OUT 5 6 7 8 9 101112131415 16 17 18 1 2 3 4 RESET e OO000000H000000600 Connectors Connectors UNIVERSAL 1 Input Ul1 POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24V 5 Input GND DIGITAL 23 Output DO1 6 Input Ul4 OUTPUT 24 Output Common for DO1 amp DO2 7 Input UIS RELAY 25 Output DO2 8 Input
29. 4 8 6 3 6 4 6 2 2 Restore ete etes 55 6 2 3 Port Configuration essere nennen rennen 56 6 2 4 IP Configuration ue me emet le t Ue pdt 57 6 2 5 Configuration 57 6 2 6 LIOB IP Configuration LIOB IP Device 58 6 2 7 CEA 852 Device Configuration LONMARK Mode 58 6 2 8 BACnet Configuration BACnet Mode eere 60 6 2 9 BACnet IP Configuration BACnet Mode sse 60 6 2 10 Data Points and AST BACnet Mode sese 61 j 61 6 3 T i System oen diete oth biet pen epe tees 61 63 2 TP StatiSUcs nite TRHpPSEORICSRIUUDREE SeCERI HEP 62 6 3 3 CEA 852 Statistics LIOB IP or LONMARK Mode 62 6 3 4 Enhanced Communications Test LIOB IP or LONMARK Mode 63 6 3 5 CEA 709 Statistics LIOB IP or LONMARK Mode 64 6 3 6 BACnet Bindings Statistics BACnet Mode 64 6 3 7 Scheduler and Alarm Log Statistics BACnet Mode 65 Reset Contact Logout csccscscsscssssscssssssssssessssseessecsscesessscesscssscssssssssssesees 65 7 L IOB Host LCD Display L INX Mode
30. 5 Input GND DIGITAL 23 Output DO1 6 Input Ul4 OUTPUT 24 Output DO1 7 Input UIS RELAY 25 Output DO2 8 Input GND 16A 26 Output DO2 9 Input UIG 27 Output DO3 ANALOG 10 Output AO1 28 Output DO3 OUTPUT 11 Output GND 29 Output DO4 0 10 V 12 Output AO2 30 Output DO4 13 Output AO3 DIGITAL 31 Output DOS 14 Output GND OUTPUT 32 Output DOS 15 Output AO4 RELAY 16 Output AO5 6A 17 Output GND 18 Output AO6 Figure 22 LIOB 453 553 terminal layout Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 35 LOYTEC 3 4 14 LIOB A2 The LIOB A2 adapter can be used to extend the LIOB Connect bus and to connect an external power supply Figure 23 shows the front view of the LIOB A2 Figure 23 LIOB A2 front view On the 24 VDC INPUT terminal a 24 VDC power supply can optionally be connected to supply L IOB devices with power when not using an L POW power supply 3 party devices up to 200 mA in total which also need a 24 VDC power supply can be connected to the 24 VDC 200mA OUTPUT At the bottom of the LIOB A2 a 4 wire cable SEL GND B can be connected to extend the LIOB Connect bus as shown in Figure 24 When the cable is longer than 1 m it is necessary to terminate the LIOB Connect bus at the end This is achieved by using another LIOB A2 and connecting the B with the TERM terminal as shown at the bottom right of Figu
31. 55x devices in LIOB IP device mode can also be directly updated over IP This method is faster and also the only possible upgrade method if the L IOB host is a LIOB 48x 58x device To Upgrade the LIOB 45x 55x Firmware directly 1 4 5 Start the Configurator and connect directly to the L IOB device using Connection Select menu Firmware Update This opens a Firmware Update dialog similar to Figure 70 Click on the LZ button and select the L IOB firmware image Observe that LIOB 45x 55x devices need a different firmware than the other models Click on Start Observe the download progress When the download is complete click Close 10 2 6 Printing Labels For documentation purpose I O labels can be printed and glued to the top and bottom of the enclosure It is recommended to use Avery L6031REV labels for printing To Print the L IOB labels 1 Start the Configurator and open the L IOB host project which contains the L IOB devices to print labels for 2 Select menu File Print 3 This opens the Print View dialog as shown in Figure 71 Select Export LIOB Labels on the left side a Print View Ee i mem Export Time of last export Thursday August 04 2011 11 17 11 pen T yet Bl saveacopy m Print emai i search EA 4 Review amp C
32. 709 over IP CEA 852 VNC for LCD Ul Device name auto c0a80c51 Channel mode Standard Save Settings Get Settings 9 e Sec SNTP server Channel timeout ms off Escrow timeout ms 64 leave empty to disable Aggregation timeout ms 16 leave empty to disable MDS authentication off Warning This internet connection is insecure All data will be transmitted in clear text Use the console interface to change the MD5 secret in a secure way 5 secret 16 bytes hex Location string NAT Address v Automatic NAT leave empty to disable Multicast Address leave empty to disable Figure 42 CEA 852 Device Configuration Page The field Config server address and Config server port display the IP address and port of the configuration server which manages the L IOB device and the IP channel The field Config client port represents the IP port of the L IOB s CEA 852 device This setting should be left at its default 1628 unless there are more than one CEA 852 devices operating behind a single NAT router Please refer to the L IP User Manual to learn more about NAT configuration In the field Device name the user can enter a descriptive name for the L IOB which will appear in the IP channel to identify this device You can enter a device name with up to 15 characters It is recommended to use unique device names throughout the IP channel The Channel mode field reflects the current channel mode of t
33. Configurator for configuration firmware upgrade and access to the log file These services must be enabled during device configuration VNC The VNC server can be used for remote access to the LCD display on devices that have it The service is disabled by default 15 5 Logging and Auditing Version 4 8 The device contains a log file which can be read out over FTP or the Web server This log contains information when the device started and when crucial communication errors occur Other information such user log on are not logged as they are not part of the primary services of this device Logged events Time of the last power on reset of the device Time and version of the last firmware upgrade Time when the device was reset to factory defaults Commission of the CEA 709 node Static errors in the device and I O configuration System overload situations as one time log messages since last power on Crucial communication errors as they occur LOYTEC electronics GmbH LIOB 10x x5x User Manual 144 LOYTEC 16 Specifications 16 1 1 0 Specification 16 1 1 UI Universal Input Uls are universal inputs for four different input types Configuration is made via the L IOB Configuration Software They correspond to class 1 with 1 accuracy have an input voltage range of 0 to 10V and can withstand up to 30 V The ADC resolution is 16 bits Galvanically isolated sensors resp switches must be connected Universal inputs can be
34. GND 6A 26 Output DO3 9 Input UIG 27 Output Common for DO3 amp DO4 ANALOG 10 Output AO1 28 Output DO4 OUPUT 11 Output GND 29 Output DOS 0 10 V 12 Output AO2 30 Output Common for DO5 amp DO6 13 Output AO3 31 Output DO6 14 Output GND 32 Output DO7 15 Output AO4 33 Output Common for DO7 amp DO8 16 Output AO5 34 Output DO8 17 Output GND 18 Output AO6 Figure 21 LIOB 452 552 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 34 LOYTEC 3 4 13 LIOB 453 553 The LIOB 453 553 is either connected to the L IOB host via the LIOB IP protocol LIOB IP device mode directly to a CEA 852 network LONMARK Non ECS device modes of LIOB 453 or to a BACnet IP network BACnet device mode of LIOB 553 In all cases the physical connection is done via Ethernet IP The terminal layout of the LIOB 453 553 is shown in Figure 22 DO DO2 DO3 DO4 DOS 1920 23242526 27 28 29 30 31 32 ETHERNET DIGITAL OUT STATUS LED DISPLAY DIAL UNIVERSAL IN 0 10 V OUT 12345678 9 101112121015 15 1718 01010121016 9 OQHo00000 DOQ RESET Buttons STATUS Status Button RESET Reset Button GND GND GND DIAL Tum and Push Dial ag un cue Connectors Connectors UNIVERSAL 1 Input Ul1 POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24V
35. LIOB 15x 45x model is chosen either automatically after connecting to the L IOB device see Section 10 3 1 or manually after starting the Configurator in the menu Model The Configurator will show the L IOB Device tab as depicted in Figure 75 LIOB Device LIOB Vos import Template Export Template Upgrade Template Translation Tables Device Parameters Parameter name Description 0 ProduciCode _ LIOB 150 Product code of device 1 DeviceName _ LIOB 0G3 Device name 2 PinCode PIN code empty or 0 to disable 3 AltemativeUnit E 51 05 unit setting 4 Language English Language setting for LCD display 5 GrouplnMinSen 0 Minimum wait time between updates of digital group input NV rate limitation 6 GroupinMaxSe 0 Maximum time between updates of digital group input NV heart beat 7 GroupOutFBMin 0 Minimum wait time between updates of digital group output feedback NV rate limitation 8 GroupOutFBMa 0 Maximum time between updates of digital group output feedback NV heart beat Figure 75 LIOB Device Tab In the Device Parameters table the device specific configuration properties can be set Refer to Section 9 2 for more information on device specific configuration properties 10 3 3 Configure I Os Once a L IOB device project is started the I Os have a default configuration To adapt the I Os to the specific needs in a project they can be freely configured Whenever changes have
36. Manual 147 16 5 Specification for LIOB 15x Models LOYTEC Dimensions mm 107 x 100 x 75 Lx Wx H Operating Temperature 0 C to 50 C ambient Storage Temperature 10 C to 85 C Humidity non condensing operating storage 10 to 90 RH 50 C Environmental Protection TP 40 enclosure IP 20 screw terminals Power Supply 24 VDC 24 VAC 10 Installation DIN rail mounting EN 50 022 Interface 1 x CEA 709 FT or LIOB FT configurable Types LIOB 150 LIOB 151 LIOB 152 LIOB 153 LIOB 154 Power Consumption W 1 7 2 6 all Relays on 1 7 1 7 2 7 1 7 2 5 177252 Universal Input UI 8 8 6 6 7 1 x Pressure Sensor Digital Input DI 2 12 Analog Output AO 2 6 6 4 Digital Output DO 8 4 x Relay 4 x Triac 8 8x 5 4 x Relay 7 5 x Relay 2 x Triac Relay 16 1x Relay 6 A Digital output specification Relay 6 A Relay 6 A Relay 16 A Relay 6 A Triac 1 A 24 230 VAC and6 A Triac 1 A 24 230 VAC Internal shunt available for UI5 amp UI6 UI5 amp UI6 UB amp UI4 UB amp UM UL amp UI6 current measurement 017 amp UI8 UI7 amp UI8 UL amp UI6 UI5 amp UI6 UI7 Supported STId card 3 2 1 readers Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 148 16 6 Specification for LIOB 45x Models LOYTEC Dimensions mm 107 x 100x 75 Lx Wx H Operating Temperature 0 C to 50
37. Node ID Status Enable 5 1 LIOB 100 LIOB1 80 00 00 0 1 20 Online v LIOB 2 2 LIOB 100 LIOB2 80 00 00 0E 1C 73 Online m Overview 3 LIOB 100 LIOB3 80 00 00 0E 1C 69 Online v E Installation 4 LIOB 101 LIOB4 80 00 00 0D 28 D5 Online v 5 LIOB 101 LIOBS 80 00 00 0D 28 8A Online 6 No device present 7 No device present 8 No device present Figure 53 LIOB Configuration Run The LIOB Installation page will also show configuration errors In Figure 54 e g the last L IOB device could not be detected LOYTEC LINX 120 Logged in as admin LIOBFT Scan Detected a different index for the first device not in daisy chain 5 Check if there is a contact problem or change the configured index if incorrect Index of first device notin daisy chain 9 networks under control Type Name Node ID Status Enable 1 LIOB 100 LIOB1 80 00 00 0 1 20 Online 2 LIOB 100 LIOB2 80 00 00 0 1 73 Online 3 LIOB 100 LIOB3 80 00 00 0E 1C 69 Online 4 LIOB 101 LIOB4 80 00 00 0D 28 D5 Online 5 LIOB 101 LIOBS 80 00 00 0D 28 8A Not detected Contact 6 No device present Logout 7 No device present 8 No device present Figure 54 Missing L IOB Device This could be caused by communication problem or by a physically missing L IOB device In case it is OK that this device is missing it must be disa
38. Resistance see Section 9 3 3 the Invert flag is set by default This is because the ON state CLOSED refers to a small resistance value whereas the OFF state OPEN refers to a big resistance value 9 3 14 PulseTime Flag The pulse time flag is available for all inputs with interpretation Pulse Count or Physical Unit Count see Section 9 3 4 It activates the pulse time data point Note that by setting this flag additional traffic is generated 9 3 15 SIUnit OnText and USUnit OffText Version 4 8 The SI unit on text and US unit off text properties are available for all I Os except for inputs with Interpretation Pulse Count see Section 9 3 4 In case of analog values the SIUnit OnText property specifies the unit name in SI mode in case of digital values it specifies the ON text shown when the digital I O is active In case of analog values the USUnit OffText property specifies the unit name in US mode in case of digital values it specifies the OFF text shown when the digital I O is inactive Using the Configurator Project Settings the user can choose between SI and US units LOYTEC electronics GmbH LIOB 10x x5x User Manual 83 LOYTEC 9 3 16 Resolution The resolution property is available for all I Os with an analog data type It specifies the resolution of the value display in the L IOB LCD UI as well as the step width for the L IOB jog dial when manually setting an analog value or propert
39. SNVT volt nvoGrouplnVal SNVT state 64 nvoGroupOutValFb SNVT state 64 SCPTdevMajVer V SCPTdevMinVer N SCPTobjMajVer SCPTobjMinVer SCPTlocation UCPTdeviceFlags UCPTlanguage SCPTmaxSendTime nvoGrouplInVal SCPTminSendTime nvoGroupInVal SCPTmaxSendTime nvoGroupOutValFb SCPTminSendTime nvoGroupOutValFb 7 N E Figure 64 Node Object e nviRequest SNVT obj request nvoStatus SNVT obj status The Node Object accepts the following commands via nviRequest NORMAL RQ UPDATE STATUS RQ REPORT MASK RQ ENABLE RQ DISABLED RMV OVERRIDE REMOTE MANUAL OVERRIDE e SCPTlocation SNVT str asc This CP represents the name of the device see Section 9 2 7 e UCPTdeviceFlags unsigned quad This CP allows setting some device specific flags o UCPT DEVICE FLAGS US 0x00200000 for displaying US units instead of SI units in the L IOB LCD Display see Section 9 2 9 o UCPT DEVICE FLAGS SET ACC 0x10000000 this flag must be set to be able to set back counter values energy count run hours and live values for interpretation physical unit count or pulse count During normal operation it must be reset to ensure that commissioning the device does not automatically set back the counter values e UCPTlanguage enumeration type This CP allows setting the language in the L IOB LCD Display UCPT LANGUAGE UNDEF 0 default language leave lan
40. Switch 2 Refer to Section 9 4 for more information on the switch mode 9 3 10 GroupNumber and SubGroupNumber for Card Reader Mode The IO function group number and sub group number properties are available for all inputs used for connecting the signals of an STId card reader see Section 9 5 9 3 11 OperatingMode OverrideValue and DefaultValue The operating mode property is available for all I Os For inputs the OperatingMode property has the following meaning e Disabled The physical input is disabled and the data point is set to DefaultValue This can be used to disable unused inputs Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 82 LOYTEC e Auto The input measures the value from the connected sensor e Override The physical input is disabled and the data point is set to OverrideValue e Manual The physical input is disabled and the data point is set by the user on the L IOB LCD UI see Chapter 5 or L IOB host Web UI see Chapter 8 This can be used to simulate input values for the connected node s or the L IOB host The DefaultValue is also used for inputs when no sensor value has yet been read from the physical input For outputs the OperatingMode property has the following meaning e Disabled The incoming output value is ignored in the L IOB device and the physical output is set to DefaultValue e Auto The output value is set as requested by the incoming value e Override Th
41. Temperature A h Terminal Template file name of the terminal configuration which was stored using Export Object e g Humid_Sensor xml An example of such a CSV file is shown here dBus St ID Dev Template Dev Name NID Terminal Term Name Term Template LIOB 1 liob100 xml LIOB Heating UI1 TempA NTC xml LIOB 1 1liob100 xml LIOB Heating 012 NTC xml LIOB 2 liobl00 xml LIOB Cooling UI1 HumidA Humid_Sensor xml LIOB 2 liob100 xml LIOB Cooling UI2 HumidB Humid Sensor xml LIOB FT 1 liob150 xml LIOB Shades AO1 MotorUp Motor xml LIOB FT 1 liob150 xml LIOB Shades A02 MotorDown Motor xml The terminal configurations NTC xml Humid_sensor xml and Motor xml would have to be present in the same folder as the CSV file The file would e g look like this in MS Excel A B 0 E G H 1 Bus StID Dev Template Dev Name NID Terminal Term Name Term Template 2 LIOB 1liob100 xml Heating un TempA NTC xml 3 LIOB 1liob100 xml Heating 2 NTC xml 4 LIOB 2liob100 xml Cooling un HumidA Humid Sensor xml 5 LIOB 2liob100 xml Cooling 2 HumidB Humid Sensor xml 6 LIOB FT 1liob150 xml Shades AO1 MotorUp Motor xml 7 LIOB FT 1liob150 xml Shades AO2 MotorDown Motor xml LOYTEC electronics GmbH LIOB 10x x5x User Manual 116 LOYTEC 10 11 The CSV file can finally be imported using the Import Termina
42. User Manual 75 LOYTEC Tests are used The test information can also be exported to a CSV file by using Export Device CSV or Export All CSV 8 7 L IOB Data Points The L IOB data points are located in the folder LIOB of the L IOB host data points Figure 61 e g shows the data points of the first I O of LIOBI Please refer to Section 9 6 for a detailed description of all L IOB data points at bus device and I O level DLOYTEC LINX 120 Logged in as admin Reload o GROOT OBJECT Ress Favorit c Folder LIOB LIOB 100 1 UI 6 System Registers Oo user Roasters Name Dir Value State x 1131 Variables L1 1 UI1 Input Read input analog 25 319458 normal EQ CEA709 Port L1 1 Ul1 lOStatus Read input multistate OK normal UO uos L1 1 Ul1 OperatingMode Read input multistate Normal normal c C3LI0B 100 1 L1 1 UI1 OperatingMode Write output multistate Normal normal stom_ NTC L1 1 Ul1 OverrideValue Read input analog 0 normal L1 1 UI1 OverrideValue Write output analog 0 normal 2 Pr1000 L1 1 UI1 DefaultValue Read input analog 0 normal x Quis _ 1 L1 1 UI1 DefaultValue Write output analog 0 normal Ul4 NTC1K8 L1 1 Ul1 Offset Read input analog 0 normal 5 us UI5_Ni1000 L1 1 Ul Offset Write output analog 0 normal L1 1 Ul1 MinValue Read input analog 15 normal JIG Ul L1 1 Ul1 MinValue Write output
43. Values button of the device Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 73 LOYTEC LINX 120 Logged in as LIOB LIOB FT LIOB IP admin 2012 12 13 21 39 33 bz Reload ResetAli Count Values c Name Term Type Value Mode Status Device Info U LIOB1 Online _ Reload Reset Count Values a Ul Custom NTC ui IN Analog Digital 10V 25 30 Config UI PT1000 ul2 IN Analog Digital 10V 1 12 Auto OK Statistics Ul NTC10K IN Analog Digital 10V 20 22 C Auto OK L WEB N Ul NTC1K8 IN Analog Digital 10V 25 23 C Auto LIOB O O Ul Ni1000 Ul5 IN Analog Digital 10V 2 03 C Auto Overview UL Linear UIG IN Analog Digital 10V 28 85 C Auto e Ul Frequency IN Analog Digital 10V 0 00 Hz Auto OK Ul Trans Table Ul IN Analog Digital 10V 39 96 C Auto Contact DI Digital DH IN Digital OPEN Auto OK Logout DI Pulse Cnt 012 IN Digital 0 00 Auto OK AO Digital AO1 OUT Analog 12V OFF Auto OK AO Analog AO2 OUT Analog 12V 0 00 V Auto OK DO_Digital DO1 OUT Relais 6A OPEN Auto OK DO PWM D02 OUT Relais 6A 0 00 Auto manual DO3 OUT Relais 6A OPEN Manual OK override 004 OUT Relais 6A OPEN Override OK disabled 005 OUT Relais 6A OPEN Disabled OK unused 006 OUT Triac OPEN Auto OK unused 007 OUT Triac OPEN Auto OK Figure 58 LIOB Overview Further L IOB devices can be displayed
44. Voltage 2 10V in both cases 14 2 3 1 Voltage Source connected to UI with Analog Interpretation Figure 83 shows the connection of a voltage source to a universal input in analog mode Input impedance 20kQ Figure 83 Voltage source on UI in analog mode 14 2 3 2 Voltage Source connected to UI with Digital Interpretation Figure 84 shows the connection of a voltage source to a universal input in digital mode In this case the voltage source acts as a switch with the depicted low and high levels L IOB M 3 Input impedance 20kQ Voltage Source Digital Input M d Threshold 08V Low gt 20V High ee eel Figure 84 Voltage source on UI in digital mode 14 2 4 Connection of Voltage Sources to Digital Inputs Figure 85 shows the connection of a voltage source to a digital input In this case the voltage source acts as a switch with the depicted threshold Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 137 LOYTEC Voltage Source Digital Input Threshold 5 85 V Figure 85 Voltage source on DI 14 2 5 Connection of 4 20mA Transmitters to Universal Inputs 14 2 5 1 4 20mA Transmitter connected to UI with Internal Shunt Some universal inputs have an internal shunt which can be activated in pairs with another UI in the Configurator software signal type Current 4 20mA Shunt Which UIs are equipped with shunts is do
45. analog 15 normal UI7 Frequency L1 1 Ul MaxValue Read input analog 40 normal 2 Cours Trans Table L1 1 Ul1 MaxValue Write output analog 40 normal Statistics 011 Digital L1 1 UI1 HoldTime Read input analog 0 normal E3DI2 012 Pulse Cnt L1 1 Ul1 HoldTime Write output analog 0 normal L Web E3401 401 Digital L1 1 Ul1 DebounceTime Read input analog 0 normal 1 1 Ul1 DebounceTime Write output analog 0 normal 23402 402 Analog m L1 1 UH PulseCountlnit Write output analog 0 normal 001 DO1 Digital 2002 po2 manual E3006 unused unused unused 309 unused amp uos 100_2 amp uos 100_3 C3LIOB 101 4 2 101 5 CaLioB FT Figure 61 L IOB Data Points in Web UI Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 76 LOYTEC 9 Concepts This chapter describes the basic concepts behind the configuration and data points of L IOB devices These concepts apply to the L IOB part of the Configurator software Chapter 10 the L IOB host Web UI Chapter 8 the L IOB Web UI Chapter 6 the L IOB host LCD UI Chapter 7 and the L IOB LCD UI Chapter 5 Observe that not all properties and data points will be available in all configuration instances Some properties e g can only be seen or setup at configuration time others only at run time 9 1 Technology Independent Data Points BACnet Mode The LIOB 55x I O mo
46. analog data type except for Interpretation Physical Unit Count as well as for inputs with interpretation Digital Occupancy or Switch Mode They are used for e scaling inputs with interpretation Linear see Section 9 3 4 e scaling outputs with interpretation Analog PWM Fading or Ramping see Section 9 3 4 e scaling the bar icon in the L IOB LCD UI see Section 5 2 e setting the active and inactive values of the SNVT occupancy for digital or occupancy inputs LONMARK Non ECS device mode only e limiting the dimming values in Switch Mode LONMARK Non ECS device mode only see Section 9 4 9 3 21 COV and MaxSendTime Version 4 8 The Change Of Value property is available for all inputs with an analog data type It is used to specify a minimum delta value required to trigger a data point update If the input value only changes within a range of COV to COV no update is generated Observe that in LOYTEC electronics GmbH LIOB 10x x5x User Manual 84 LOYTEC any case after MaxSendTime an update is generated anyway to be sure to get the latest value at least at some point in time If COV is set to 0 every input value change generates an update of the attached data point 9 3 22 MinSendTime The minimum send time property is available for all I Os It specifies the minimum time that has to pass before a new update of an input or output feedback value is generated If MinSen
47. are three possible ways to achieve that e The object which is controlled e g a light delivers a SNVT switch network variable which can be bound to the feedback network variable nvilnSwitchFb of the input e A turn around binding between the live value nvoInValue and the feedback network variable nviInSwitchFb of the input is created This is only possible if the DataType of the input is set to Switch SNVT switch e The feedback state member is internally controlled using the Set Value and Set Feedback State to modes This is only possible if the Data Type of the input is set to Scene SNVT scene or Setting SNVT setting 9 4 2 Two Input Mode Two inputs can be grouped together using the IOFunc GroupNumber and SubGroupNumber properties see Section 9 3 9 Each event group is permanently assigned to a specific input and there is no back and forth between the two event groups EventGroupl is assigned to the input with the SubGroupNumber Switch 1 and EventGroup2 is assigned to the input with the SubGroupNumber Switch 2 The GroupNumber property must be the same for both inputs In this case both event groups described in Section 9 4 1 are defined in the first input object Switch 1 The two free event groups in combination with the HoldTime and MinSendTime of the second input are used to define the behavior when both inputs become active at the same time meaning within the DebounceT
48. been made they can be explicitly validated by clicking on Validate Config in the L IOB I Os tab Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 122 LOYTEC To Configure I Os 7 10 11 12 13 Select the L IOB I Os tab Device 1 0s The L IOB I Os tab displays the I Os available on that L IOB device in the Inputs Outputs list Inputs Outputs Nr TerminalNr Terminal Name Hardware type IN Analog Digital 10V 2 2 GND12 GND UI1 UI2 IN Analog Digital 10V um ul IN Analog Digital 10V 4 UB UB IN Analog Digital 10V To adapt the I O name double click the name in the Name column and edit it e g RoomTemp la Nr 2 TemunalNr Teminal Hardware type un IN Analog Digital 10V Select or multi select an I O in the Inputs Outputs list and observe the Object parameters list below These parameters can be used to configure the I O Object parameters Nr Parameter name Parameter value Unit Range Description 0 Name un Terminal name 1 HardwareType IN Analog Digital 10V Terminal type 2 SignalType Voltage 0 10V z Type of the input output signal For example change the SignalType of the input to Resistance Note that the object configuration properties may change when changing the signal type or interpretation For detailed information on available configuration properties and their dependencies refer to Section 9 3 In this exampl
49. click OK 4 Now the BACnet EDE File folder is populated with the imported BACnet objects LOYTEC electronics GmbH LIOB 10x x5x User Manual 129 LOYTEC 10 4 6 Upgrade Firmware The L IOB firmware can be upgraded through the Configurator software For doing so the Configurator needs to be connected to the L IOB device To Upgrade the L IOB Firmware 1 Start the Configurator and connect to the device see Section 10 4 1 2 Select menu Firmware Update 3 This opens the Firmware Update dialog which will look similar to Figure 70 Click on the button and select the L IOB firmware image Observe that LIOB 45x 55x devices need a different firmware than the other models 4 Click on Start 5 Observe the download progress When the download is complete click Close 10 4 7 Backup and Restore A backup of the complete state of a L IOB device can be created by using Tools Backup Device Configuration The L IOB device must be connected to the Configurator to perform this operation see Section 10 4 1 The backup will be stored as a ZIP file This file can later be used to restore the old device configuration again It can also be used to physically replace a device and copy the configuration of the old device to the new one A device configuration is restored by using Tools Restore Device Configuration 10 4 8 Printing Labels For documentation purpose I O labels can be printed and glued to the top and bottom of the L IOB
50. device LONMARK Mode since it is not necessary to be on site to press the status button Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 53 LOYTEC LOYTEC LIOB 450 1 010 185556 O eae Se Hostname LIOB 450 8000000140FB 192 168 12 81 O Primary Firmware LIOB ASC Primary Image ACTIVE Device Info U Primary Version 220 Primary Build date 2012 06 27 15 41 21 Config O Fallback Firmware LIOB ASC Fallback Image Statistics Fallback Version 220 Reset Fallback Build date 2012 05 31 12 23 34 x Serial number 020901 8000000140FB Contact O Free memory 7774K 688K Logout Free flash 11825K tU CPU load 25 0 c System temperature 47 8 C Supply voltage 22 2V LIOB Info Device mode LONMARK Device A 709 applicatio que node IDs and prog D P E Figure 33 Device Information Page Click through the menus on the left hand side to become familiar with the different screens If you click on Config in the left menu you will be asked to enter the administrator password in order to make changes to the settings as shown in Figure 34 Enter the default administrator password loytec4u and select Login LIOB 450 Logged in as guest 2012 07 05 09 14 00 Enter your username and password Account admin Device Info Password LITIIIIII Config System Statistics Reset networks under control Contact Logout Figure 34 Enter loytec4u
51. enclosure It is recommended to use Avery L6031REV labels for printing To Print the L IOB labels 1 Start the Configurator and open the L IOB project to print labels for 2 Select menu File Print 3 This opens the Print View dialog as shown in Figure 71 Select Export LIOB Labels on the left side 4 Click on Export to generate a PDF file of the labels 5 Click on Open to open the file in a separate PDF reader window Click on Save to save the PDF file 6 Print the PDF directly from the PDF reader embedded in the print view or from the opened saved PDF file Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 130 LOYTEC 11 L IOB Firmware Update The L IOB firmware supports remote upgrade over the L IOB bus To guarantee that the L IOB is not destroyed due to a failed firmware update the L IOB firmware consists of two images 1 fallback image 2 primary image The fallback image cannot be changed Thus if the update of the primary image fails or the image is destroyed by some other means the fallback image is booted and allows reinstalling a valid primary image When the L IOB device boots up with the fallback image the status LED is flashing red 11 1 Firmware Update using the Configurator Refer to Sections 10 2 5 10 3 7 and 10 4 6 for information on how to upgrade the L IOB firmware using the Configurator Software 11 2 Firmware Update using the LWEB 822 900 Master Device Manager Refer to
52. g to migrate new functions which were not yet available in earlier template versions It is highly recommended to backup the original L IOB project before upgrading templates After upgrading the template a log is displayed which shows all information about the upgrade process Please carefully review this log before using the updated configuration Another way of managing L IOB configurations is using terminal configurations A terminal configuration can be created from an I O object in the Inputs Outputs list of the L IOB tab by using the Export Object button next to the list In this case only the configuration of this I O is stored in an XML file Terminal configurations can be imported to I Os of the same hardware type by using the Import Object button To setup translation tables for certain I O interpretation modes click the Translation Tables button in the L IOB tab see Figure 68 as well as the end of Section 10 2 3 10 4 4 Up and Download of Configurations Version 4 8 Once the L IOB configuration is finished it can be downloaded into the connected L IOB device using Tools Download Configuration The download dialog will offer an option to reset all counter values in the L IOB device under LIOB options Reset counters counter inputs as well as output run hours and energy counts will be reset in this case A configuration can also be uploaded from the connected L IOB device using Tools Upload Configuration LOY
53. gt 1988 01 01 796 NOTE pplication Boot Tag 2 O 1988 01 01 802 NOTE Application Boot process finished 2012 06 05 693 1 synchronization from LIOB host 2012 06 05 228 Application Firmware update started Reset 2012 06 05 357 NOTE Application Firmware update successful restartin c 2012 06 05 363 NOTE Application Shutdown Contact 2012 06 05 894 NOTE Application Reset 2012 06 05 901 NOTE OS551 00000002 OSSI Log terminating 1988 01 01 116 NOTE Application Log initialized LIOB 450 V2 2 0 Bui Logout 1988 01 01 122 NOTE Application Serial 020901 8000000140FA Figure 45 System Log Page 6 3 2 IP Statistics Figure 46 shows the IP statistics page It allows finding possible problems related to the IP communication Specifically any detected IP address conflicts are displayed if the device s IP address conflicts with a different device on the network DLOYTEC LIOB 450 Logged in as Update IP statistics guest 2012 07 09 07 12 16 2 Ethernet Interface Statistics Rx packets 0 9 Rx bytes 2314132968 Device Info x Rx dropped 0 Config 4 Rx no clusters 0 pe Rx CRC errors 0 Statistics 5 Rx missed errors 0 Tx collisions 0 ane 0 pas Tx packets 0 Tx bytes 72091986 Rx no mbuf 0 Reset Rx oversize errors 0 Contact Rx runt errors 0 Tx ok 0 Logout
54. has set value B manually the feedback data point will be set to value B e IOStatus current status of output This data point always has the value OK e RunHours total time the digital output was switched on e EnergyCount energy consumption of the device or appliance e g lamp connected to the output see also Section 9 3 29 e Output current value of the output as set by the L IOB host application This data point will go offline if the L IOB device is detected offline by the L IOB host e SwitchCycles Number of switching cycles of the digital output This is useful for estimating the expected remaining life time of a relay Observe that this data point is never reset not even by a reset to factory defaults see Section 3 6 3 e OperatingMode see Section 9 3 11 e OverrideValue see Section 9 3 11 e DefaultValue see Section 9 3 11 e Offset see Section 9 3 19 e MinValue see Section 9 3 20 e MaxValue see Section 9 3 20 e PWMbePeriod see Section 9 3 28 e RunHourslnit when this data point is written the RunHours data point is reset to the written value LOYTEC electronics GmbH LIOB 10x x5x User 9 6 5 Parameters Manual 97 LOYTEC EnergyCntInit when this data point is written the EnergyCount data point is reset to the written value NominalPower see Section 9 3 29 Some bus device and I O specific configuration properties are also available as parameters in the LWEB 821 900 Mast
55. in LIOB 55x devices For LIOB 45x 55x devices in LIOB IP device mode the next step is the activation of the LIOB IP channel in the L IOB host see Section 8 1 After that the IP and host setup must be done in all LIOB 45x 55x devices see Section 5 4 or Sections 6 2 4 and 6 2 6 Note Older L IOB hosts must be upgraded to firmware version 4 8 or higher These upgraded L IOB hosts then need a factory reset once to activate the support of the LIOB IP bus Otherwise the LIOB IP bus will not appear in the Web UI of the L IOB host For both LIOB 15x devices in LIOB FT device mode and LIOB 45x 55x devices in LIOB IP device mode the user must then manually setup a unique Station ID in each L IOB device via the LCD UI see Section 5 4 Alternatively one can also setup the Node IDs of all attached L IOB devices in the L IOB host s Web UI and start a configuration run see Section 8 3 In this case the L IOB Station IDs are automatically set by the L IOB host during the configuration run Whenever a new configuration is downloaded into a L IOB host with connected LIOB 15x 45x 55x devices as well as whenever the user manually scans for devices or starts a configuration run in the L IOB host the L IOB devices are detected commissioned and configured This is done in the following steps 1 L IOB devices connected over the LIOB FT IP bus are detected Enumeration is achieved via the Station ID Version 4 8 LOYTEC electronics Gmb
56. minimum value to the maximum value ramping time This way the transition speed between current and new value is always equal independent of the difference between the two values The data type property is available for all inputs with interpretation Linear Translation Table Frequency Table Physical Unit Count Digital Occupancy and Switch Mode as well as analog outputs with interpretation Analog Fading or Ramping Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 81 LOYTEC 9 3 6 SNVT The SNVT Standard Network Variable Type is available for all I Os on a LIOB 15x 45x model in LONMARK or Non ECS device mode Depending on the interpretation different SNVTs will be available for selection The SNVT determines the type of all changeable network variables and configuration properties of the I O 9 3 7 DeadTime for Fading and Ramping For interpretation Fading the DeadTime property specifies the fading time from the current value to the new value For interpretation Ramping the DeadTime property specifies the ramping time from the minimum to the maximum value independent of current and new value 9 3 8 lOFunc GroupNumber and DeadTime for Interlocked Mode The IO function group number and dead time properties are available for all digital outputs If IOFunc is set to Interlocked the GroupNumber property can be used to form
57. must be set when using network management tools which do not support ECS 4 1 6 BACnet Device Mode LIOB 55x This is the standard device mode for LIOB 55x devices The L IOB devices behave as independent nodes on a BACnet IP network A L IOB host is not needed 4 2 Device Installation Depending on the device mode device installation works as explained in the following sections 4 2 1 Device Installation LIOB Connect device mode Whenever a new configuration is downloaded into a L INX device with connected LIOB 10 devices as well as whenever the user manually scans for devices or starts a configuration run in the L INX UI the L IOB devices are detected commissioned and configured This is done in the following steps 1 L IOB devices directly connected over the LIOB Connect bus or over a LIOB A2 adapter using a 4 wire cable see Section 3 5 are detected The devices are automatically enumerated according to their position in the physical daisy chain 2 All devices are configured and set online At this point the L IOB data points are available in the L INX application 4 2 2 Device Installation LIOB FT IP device mode The first step after hardware installation is to setup the LIOB FT IP device mode since LIOB 15x 45x 55x devices are in LONMARK or BACnet device mode by default See Section 5 4 for setting up the LIOB FT IP device mode in LIOB 15x 45x devices See Section 5 1 for setting up the LIOB IP device mode
58. or universal input in digital mode It is also used for connecting the code signal of STId card readers see Section 9 5 Occupancy This interpretation is available for all inputs See Section 9 3 25 for details Switch Mode LONMARK Mode This interpretation is available for all inputs restricted to LIOB 15x 45x in LONMARK or Non ECS device mode See Section 9 4 for details Clock This interpretation is available for all interrupt capable inputs It is used for connecting the clock signal of STId card readers see Section 9 5 Card Data This interpretation is available for all inputs It is used for connecting the data signal of STId card readers see Section 9 5 Analog This interpretation is only available for analog outputs hardware type Analog 12V It is used to output a voltage between 0 and 12 V In case of using data type Percentage see Section 9 3 5 the output value in percent coming from the L IOB host is scaled using the MinValue and MaxValue properties see Section 9 3 20 An output value of 50 would e g translate into an actual voltage of just in the middle between MinValue and MaxValue an output value of 10096 would translate into a voltage of MaxValue Note that an output value of 0 is still always translated into OV As soon as the output value is slightly raised above 0 however the voltage jumps to MinValue PWM This interpretation is available for all outputs It is used to generate a pul
59. shows all information about the upgrade process Please carefully review this log before using the updated configuration Another way of managing L IOB configurations is using terminal configurations A terminal configuration can be created from an I O object in the Inputs Outputs list by using the Export Object button next to the list In this case only the configuration of this I O is stored in an XML file Terminal configurations can be imported to I Os of the same hardware type by using the Import Object button These terminal configurations can also be used to configure the I Os of all L IOB devices in a L IOB host project This is done by manually creating a CSV file with one line per I O and the following eight columns a Bus either or LIOB FT If the field in this column starts with the whole line is ignored This can be used e g for a column header line or other comment lines in the CSV file b Station ID station ID of the L IOB device 1 8 within the bus c Device Template file name of the device template e g liob100 xml d Device Name user defined name of the device e g LIOB Heating e NID specifies the Node ID see Section 9 2 12 of the device if already known Otherwise the field is left blank f Terminal the terminal identifier as listed in the column Terminal of the Inputs Outputs list e g g Terminal Name user defined name of the I O e g
60. specifies the default value see Section 9 3 11 SCPTmaxRcvTime specifies the maximum receive time If no NV update on the main live value is received within this time the output is set to the default value SCPTminSendTime specifies the minimum send time for the feedback value see Section 9 3 22 SCPTmaxSendTime specifies the maximum send time for the feedback value see Section 9 3 21 SCPTsndDelta specifies the change of value property for the feedback value see Section 9 3 21 UCPTioSigInterpr specifies the interpretation see Section 9 3 4 UCPTioSigType specifies the signal type see Section 9 3 3 SCPToffset reserved for future use SCPTminRnge specifies the minimum value see Section 9 3 20 SCPTmaxRnge specifies the maximum value see Section 9 3 20 CPTioFlags specifies the persistent flag Section 9 3 12 and the invert flag Section 9 3 13 U UCPToffHystRaw specifies the off value see Section 9 3 27 UCPTonHystRaw specifies the on value see Section 9 3 27 SCPTpwmPeriod specifies the PWM period see Section 9 3 28 UCPTdeadTime specifies the dead time see Section 9 3 8 UCPTioFunc specifies the I O function and group number see Section 9 3 8 SCPTrunHrInit initializes the run hours of the digital output The UCPT DEVICE FLAGS SET ACC flag must be set in order to perform this operation see Section 9 7 2 UCPTenergyCntlnit initializes the energy count of the output The UCPT DEVICE FLAGS S
61. that HTTP for the Web server can only be disabled using the device configuration of the Configurator Ethernet TCP IP J FIP FTP port 21 Telnet HTTP LIOB IP VNC for LCD UI Save Settings GetSettings Figure 39 FTP server configuration on the Ethernet port 6 2 5 VNC Configuration Version 4 8 LIOB 45x 55x devices also provide remote access over Ethernet to the LCD display The VNC protocol is used for this purpose and the device implements a VNC server for exposing the display The VNC server is by default disabled on the device On the PC a VNC client needs to be installed Using the default settings the VNC client connects to port 5900 of the device The password is loytec4u The VNC server can be configured on the Ethernet tab of the port configuration To turn on the VNC server enable the VNC for LCD UI checkbox The VNC protocol settings are displayed in the settings box on the right hand side as shown in Figure 40 The VNC port LOYTEC electronics GmbH LIOB 10x x5x User Manual 58 LOYTEC and VNC password can be changed As a default only one VNC client may connect This limit may be increased in Max VNC clients In order to protect changes made on the LCD UI over VNC with a PIN code the Admin PIN code can be configured To disable PIN protection enter 0000 Ethernet TCP IP FTP VNC port 5900 9 Telnet Max VNC clients 1 HTTP VNC password loytec4u LIOB IP Admin pin code 0
62. the CEA 709 device the CEA 852 device the system log and the Ethernet interface 6 3 1 System Log The System Log page prints all messages stored in the system log of the device An example is shown in Figure 45 This log data is important for trouble shooting It contains log entries for reboots and abnormal operating conditions When contacting LOYTEC support please have a copy of this log ready Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 62 LOYTEC DLOYTEC Clear system log Update system log Save system log g 2012 07 09 07 10 49 o 1988 01 01 464 Application Log initialized LIOB 450 V2 2 0 Bui c 1988 01 01 471 NOTE Application Serial 020901 8000000140FA O 1988 01 01 480 NOTE Application Reset to factory defaults new LIOB m Device Info 1988 01 01 347 NOTE Application Device IP address 192 168 1 254 host ran 1988 01 01 283 NOTE Application Boot Tag 1 e fi 1988 01 01 290 1 Application Boot process finished ontig oO 1988 01 01 880 NOTE Application Shutdown PP ec 1988 01 01 723 NOTE pplication Reset Statistics 1988 01 01 730 NOTE 0551 00000002 OSSI Log terminating 2 1988 01 01 586 NOTE Application Log initialized LIOB 450 V2 2 0 Bui m System Log N 1988 01 01 593 Application Serial 020901 8000000140FA x 1988 01 01 553 1 Application Device IP address 192 168 12 80 host
63. the required firmware version of the connected L IOB devices e g to enable advanced functions in the Configurator which are only available from a certain L IOB firmware version on Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 77 LOYTEC 9 2 4 Enabled L INX Mode The enabled flag can be used to disable certain L IOB devices which are part of a common L IOB host project but not part of a certain L IOB host installation where this project shall be used One could e g create a common L IOB host project for 10 rooms where in some rooms one or more L IOB devices resp their data points are not needed In this case the unneeded L IOB devices can be disabled and the corresponding L IOB units do not have to be physically installed 9 2 5 Allow Upgrade L INX Mode This flag can be used to prohibit the firmware upgrade function for certain L IOB devices This can be used e g to be sure a critical part of the installation is not changed when an uncritical part needs a firmware update to add some functions to the L IOB devices 9 2 6 Product Code The product code is the model name of the L IOB device e g LIOB 100 9 2 7 Device Name The device name is the user defined name of the L IOB device 9 2 8 PIN The PIN code can be used to restrict manual access to the L IOB LCD UI See Chapter 5 Values can only be changed after the user enters the pin code using the jog dial of the L IOB device 9 2 9 Alternative Un
64. 0 0 EventGroup1ShortReleaseMode Set EventGroup1ShortReleaseValue SET STOP 0 0 EventGroup1LongPushMode Set EventGroup1LongPushValue SET STATE 100 0 EventGroup2ShortPushMode Set EventGroup2ShortPushValue SET DOWN 0 0 EventGroup2ShortReleaseMode Set EventGroup2ShortReleaseValue SET STOP 0 0 EventGroup2LongPushMode Set EventGroup2LongPushValue SET STATE 0 0 For the second input the following properties are changed from the default values in this example DataType Setting setting members function setting rotation IOFunc 2 Switch Group GroupNumber X must be the same as for first input SubGroupNumber Switch 2 DebounceTime 0 1s LOYTEC electronics GmbH LIOB 10x x5x User Manual 93 LOYTEC e EventGroup1ShortPushMode Set e EventGroup1ShortPushValue SET NUL 0 0 When the first input is activated shortly button pressed for less than HoldTime 3s the sunblinds go up for as long as the button is pressed SET_UP When it is released the sunblinds stop SET_STOP When the second input is activated shortly button pressed for less than HoldTime 3s the sunblinds go down for as long as the button is pressed SET DOWN When it is released the sunblinds stop SET STOP When the first button is pressed for longer than 3s the sunblinds go all the way up SET STATE except if it is pressed shortly again When the second button is pressed for longer than 3s the sunblinds go all the way d
65. 000 VNC for LCD UI Save Settings Get Settings Figure 40 VNC Configuration 6 2 6 LIOB IP Configuration LIOB IP Device Mode As in the LCD UI see Section 5 4 the IP Address of the L IOB Host which provides the LIOB IP channel can be setup here see Figure 41 When the address is changed the L IOB device is automatically deleted from the old host and added to the LIOB IP channel of the new host Ethernet TCP IP 7 FIP IP address of LIOB host 192 168 24 110 Telnet Port of LIOB host 16029 HTTP Local LIOB port 1628 LIOB IP Z VNC for LCD UI LIOB name LIOB 450 Save Settings Get Settings Figure 41 LIOB IP Configuration 6 2 7 CEA 852 Device Configuration LONMARK Mode Version 4 8 For LIOB 45x devices in LONMARK Mode CEA 709 over IP CEA 852 protocol is enabled by default since it is the only means to communicate in a control network The CEA 852 protocol settings are displayed in the settings box on the right hand side as shown in Figure 42 Typically the device is added to an IP channel by entering the relevant information on a configuration server The configuration server then contacts the CEA 852 unit of the L IOB device and sends its configuration LOYTEC electronics GmbH LIOB 10x x5x User Manual 59 LOYTEC Version 4 8 Ethernet TCP IP Jl FTP Config server address 192 168 12 30 Telnet Config server port 1629 HTTP Config client port 1628 v CEA
66. 09 Connection must be chosen The connection template can be saved under a certain Name before connecting In the field Interface the LOYTEC NIC the L IOB device is connected to must be chosen The PC Address subnet node must be chosen so that it does not interfere with any existing CEA 709 address on the network The Domain must match the domain of the L IOB device The Device Address subnet node of the L IOB device can be entered manually or detected via the Auto detect buttons Observe that the L IOB device must already be set online before connecting to the Configurator Software This can be achieved by using the L IOB LCD Display see Section 5 4 By clicking Connect the connection to the L IOB device is finally established Observe that if using a network management tool which does not support changeable network variables the L IOB device must be configured before commissioning it in the network management tool In this case the corresponding L IOB device template of the network management tool must be created online from the device and not from the XIF file 10 3 1 3 Connecting via IP LIOB 45x Version 4 8 For updating the firmware of LIOB 45x devices it is also possible to directly connect to the L IOB device via IP Observe that this connection method can only be used for firmware upgrade and not e g for configuration download To connect via IP 1 Select the FTP connection method by clicking on the Connect to device but
67. 1 262 408 5238 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 134 LOYTEC 14 Application Notes 14 1 External Power Supply not using LPOW 2415A When using a non LOYTEC power supply see Figure 79 the following rules must be complied with e Consistent polarity must be maintained when connecting LOYTEC I O controllers and modules to the transformer That is the terminal of each I O controller and each I O module must be connected to the same terminal on the secondary side of the transformer e The I O controllers and modules are half wave rectified Connecting two half wave rectified devices to the same transformer without maintaining polarity will cause short circuit e The GND terminals of the I O controller or module are internally wired to the terminal Therefore if powering I O controllers and modules with the same transformer it is again essential to maintain polarity Failure to do so will result in short circuit and or damaged device e Ifthe transformer output must be grounded connect the terminal to earth ground Power supply LOYTEC Module Controller 1 r 1 r L j o 24VDC mains or 69 24V AC DC Q vA 1 PE i 1 L H optional Figure 79 External power supply 14 2 Physical Connection of Inputs 14 2 1 Connection of Switches On or off switches can either be connected t
68. 2 nvoGroupOutValFb bit2 Output 3 nviGroupOutVal bit3 nvoGroupOutValFb bit3 Output 4 nviGroupOutVal bit4 nvoGroupOutValFb bit4 Output 5 nviGroupOutVal bit5 nvoGroupOutValFb bit5 Output 6 nviGroupOutVal bit6 nvoGroupOutValFb bit6 Output 7 nviGroupOutVal bit7 nvoGroupOutValFb bit7 Output 8 nviGroupOutVal bit8 nvoGroupOutValFb bit8 Output 9 nviGroupOutVal bit9 nvoGroupOutValFb bit9 Output 10 nviGroupOutVal bit10 nvoGroupOutValFb bit10 Table 8 LIOB 153 453 Object Mapping LOYTEC electronics GmbH LIOB 10x x5x User Manual 102 LOYTEC LIOB 154 Terminal Name Functional Block Digital Group NV mapping Uli Input 0 nvoGroupInVal bitO UD Input 1 nvoGroupInVal bit1 UI3 Input 2 nvoGroupInVal bit2 UI4 Input 3 nvoGroupInVal bit3 UI5 Input 4 nvoGroupInVal bit4 UI6 Input 5 nvoGroupInVal bit5 017 Input 6 nvoGroupInVal bit6 PRESS Input 7 nvoGroupInVal bit7 1 Output 0 nviGroupOutVal bitO nvoGroupOutValFb bitO AO2 Output 1 nviGroupOutVal bitl nvoGroupOutValFb bit1 AO3 Output 2 nviGroupOutVal bit2 nvoGroupOutValFb bit2 4 Output 3 nviGroupOutVal bit3 nvoGroupOutValFb bit3 Output 4 nviGroupOutVal bit4 nvoGroupOutValFb bit4 DO2 Output 5 nviGroupOutVal bit5 nvoGroupOutValFb bit5 DO3 Output 6 nviGroupOutVal bit6 nvoGroupOutValFb bit6 DO4 Output 7 nviGroupOutVal bit7 nvoGroupOutValFb bit7 DOS Output 8 nviGroupOutVal bit8 nvoGroupOutValFb bit8 DO6 Output 9 nviGroupOutVal bit9
69. 2 1 e PinCode see Section 9 2 6 e ErrorMask last error of this L IOB device e CfgExists flag is set if configuration for this device exists always set e Enabled flag is set if this device is enabled e Online flag is set if this device is online e NotDetected flag is set if this device could not be detected e EnableUpgrade flag is set if firmware upgrade is allowed for this device e AlternativeUnit flag is set if this device shows US units instead of SI units e ManualMode flag is set if at least one I O is in manual mode e FMW Version firmware version of this device e FMWTimestamp firmware build time stamp date and time of this device e Serial serial number of this device e LastRebootTimestamp date and time of last reboot of this device e SystemTemp current system temperature of the device e SystemVoltage current supply voltage of this device e CPULoad current CPU load of this device 9 6 3 I O specific Data Points for Inputs Version 4 8 The I O specific data point names are preceded with the L IOB bus number L IOB station ID and I O terminal name e g 11 2 015 Input Read Input current value of the input as measured and interpreted by the L IOB device This data point will go offline if the L IOB device is detected offline by the L IOB host It will go out of service if the sensor is detected disconnected by the L IOB device e IOStatus current status of input This data point wil
70. 4 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 10 LIOB 450 550 3l LOYTEC The LIOB 450 550 is either connected to the L IOB host via the LIOB IP protocol LIOB IP device mode directly to a CEA 852 network LONMARK Non ECS device modes of LIOB 450 or to a BACnet IP network BACnet device mode of LIOB 550 In all cases the physical connection is done via Ethernet IP The terminal layout of the LIOB 450 550 is shown in Figure 19 19 20 23 24 25 26 27 28 2930 31 32 33 34 DIGITAL OUT STATUS e DIGITAL IN 0 10 V OUT 10 11 12 13 14 15 16 17 18 700000000 I UNIVERSAL IN 123456789 RESET e STATUS LED DIAL Buttons STATUS Status Button RESET Reset Button GND GND GND and i UM Ul2 5 DM 012 DIAL Turn and Push Dial GND GND ND Connectors Connectors UNIVERSAL 1 Input POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 DIGITAL 23 Output DO2 4 Input UI3 OUTPUT 24 Output DO3 5 Input GND RELAY 25 Output DO4 6 Input Ul4 6A 26 Output DOS 7 Input UIS 27 Output Common for DO2 to DO5 8 Input GND 28 Output Common for DO2 to DOS 9 Input UI6 DIGITAL 29 Output DO6 10 Input UI7 OUTPUT 30 Output Common for DO6 amp DO7 11 Input GND TRIAC 31 Output DO7 12 Input UIS 1A 32 Output
71. 42 LOYTEC 15 Security Hardening Guide This guide contains security relevant information for operating the LIOB 45x 55x models on IT networks The information refers to the firmware version and the instructions found in the previous chapters of this User Manual 15 1 Installation Instructions Install the device over the Web interface e Set up the basic device functions and protocol settings as described in Chapter 6 e Disable the FTP and Telnet servers in the IP port configuration as described in Section 6 2 4 15 2 Firmware The device is equipped with one piece of software This is the firmware image and its related firmware version The firmware is distributed as a downloadable file The device can be upgraded by placing the firmware image onto the device using the procedure described in Chapter 11 15 3 Ports This Section lists all ports which may be used by the device The ports are default settings for their respective services If not stated otherwise the ports can be changed Required Ports e 80 tcp This port is opened by the Web server The port can be changed e 1628 udp tcp This is the data exchange port for CEA 852 LON over IP It is required for the primary function of the device to exchange control network data between devices over the IP network Each device needs this port open The port can be changed in case of the LONMARK mode see Section 4 1 e 47808 udp LIOB 55x This is the data exchange por
72. 5 K QA 2 6 S Dia Figure 89 STId card reader 14 3 Physical Connection of Outputs 14 3 1 6A Relays on LIOB 100 Built in Fuse The LIOB 100 has a built in fuse rated with T 6 3A time lag as shown in Figure 90 LJ Maximum Rating 250 V AC T63A ll gt Figure 90 LIOB 100 6A relays Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 139 LOYTEC 14 3 2 6A Relays with One External Fuse The total current of all used 6A relays must be restricted to 6A if more than two relays share a common COM terminal The wiring shown in Figure 91 can be used for all L IOB models with common terminals and without a built in fuse 250vac 30VDC Figure 91 6A relays with one external fuse 14 3 3 6A Relays on LIOB xx2 using Separate Fuses Figure 92 shows the wiring of the 6A relays for the LIOB 102 152 452 552 models using separate fuses In this case two relays share one common terminal COM 250vac 30VDC Figure 92 LIOB 102 152 452 552 6A relays 14 3 4 16A and 6A Relays on LIOB xx3 The 16A and 6A relays on the LIOB 103 153 453 553 models all have two separate terminals per relay There are no common COM terminals This means that a 16A or 6A fuse must be wired to one of the two terminals of each relay as shown in Figure 93 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 140 LOYTEC LIOB xx3 Fuse 1 Power supply r r
73. 5 4 Read Write Configuration Properties Version 4 8 SCPTnvType specifies the type of the changeable NVs see Section 9 3 6 UCPTioDataType specifies the high level data type of the input see Section 9 3 5 UCPTioDispInfo specifies the unit texts for analog inputs or the active inactive texts for digital inputs Section 9 3 15 the resolution Section 9 3 16 alternative unit multiplicator and offset Section 9 3 17 as well as the display on off symbols Section 9 3 18 UCPTioName specifies the name of the input see Section 9 3 1 UCPTioOpmode specifies the operating mode see Section 9 3 11 SCPTovrBehave specifies the override behavior This is set by the Configurator software so that in override mode the override value SCPTovrValue is used SCPTovrValue specifies the override value see Section 9 3 11 SCPTdefOutput specifies the default value see Section 9 3 11 SCPTminSendTime specifies the minimum send time see Section 9 3 22 SCPTmaxSendTime specifies the maximum send time see Section 9 3 21 SCPTsndDelta specifies the change of value property see Section 9 3 21 UCPTioSigInterpr specifies the interpretation see Section 9 3 4 UCPTioSigType specifies the signal type see Section 9 3 3 SCP offset specifies the offset see Section 9 3 19 SCPTminRnge specifies the minimum value see Section 9 3 20 SCPTmaxRnge specifies the maximum value see Section 9 3 20 UCPTioFlags specifies the invert flag Secti
74. 51 is either connected to the L INX via the LIOB FT bus LIOB FT device mode or to any CEA 709 FT network LONMARK Non ECS device modes The terminal layout of the LIOB 151 is shown in Figure 15 19 20 21 22 POWER LIOB FT GND GND 015 06 ND 019 0110 GND 2930 31 32 33 34 DIGITAL IN STATUS T STATUS LED DISPLAY DIAL RESET UNIVERSAL IN DIGITAL IN 1234567 8 9 101112131415 16 17 18 Buttons STATUS Status Button RESET Reset Button DIAL Turn and Push Dial U D us 6 0 prs SNP Connectors Connectors UNIVERSAL 1 Input UI1 POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24V 5 Input GND TP FT 10 21 LIOB FT Input A 6 Input Ul4 CEA 709 22 LIOB FT Input B 7 Input UIS DIGITAL 23 Input 015 8 Input GND INPUT 24 Input GND 9 Input UI6 25 Input DI6 10 Input UI7 26 Input DI7 11 Input GND 27 Input GND 12 Input UI8 28 Input DI8 DIGITAL 13 Input DI16 29 Input DI9 INPUT 14 Input GND 30 Input GND 15 Input DI15 31 Input DI10 16 Input 0114 32 Input DI11 17 Input GND 33 Input GND 18 Input DI13 34 Input DI12 Version 4 8 Figure 15 LIOB 151 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 28 LOYTEC 3 4 7 LIOB 152 The LIOB 152 is e
75. 52 Functional Block Digital Group NV mapping Input 4 nvoGroupInVal bit4 Input 5 nvoGroupInVal bit5 Output 0 nviGroupOutVal bitO nvoGroupOutValFb bit0 Output 1 nviGroupOutVal bitl nvoGroupOutValFb bit1 Output 2 nviGroupOutVal bit2 nvoGroupOutValFb bit2 Output 3 nviGroupOutVal bit3 nvoGroupOutValFb bit3 Output 4 nviGroupOutVal bit4 nvoGroupOutValFb bit4 Output 5 nviGroupOutVal bit5 nvoGroupOutValFb bit5 Output 6 nviGroupOutVal bit6 nvoGroupOutValFb bit6 Output 7 nviGroupOutVal bit7 nvoGroupOutValFb bit7 Output 8 nviGroupOutVal bit8 nvoGroupOutValFb bit8 Output 9 nviGroupOutVal bit9 nvoGroupOutValFb bit9 Output 10 nviGroupOutVal bit10 nvoGroupOutValFb bit10 Output 11 nviGroupOutVal bitl1 nvoGroupOutValPb bit1 1 Output 12 nviGroupOutVal bit12 nvoGroupOutValFb bit12 Output 13 nviGroupOutVal bit13 nvoGroupOutValFb bit13 Table 7 LIOB 152 452 Object Mapping Terminal Name 12 14 15 16 1 AO2 4 5 AO6 2 DO4 DOS LIOB 153 LIOB 453 Functional Block Digital Group NV mapping Input 0 nvoGroupInVal bit Input 1 nvoGroupInVal bit1 Input 2 nvoGroupInVal bit2 Input 3 nvoGroupInVal bit3 Input 4 nvoGroupInVal bit4 Input 5 nvoGroupInVal bit5 Output 0 nviGroupOutVal bitO nvoGroupOutV alFb bitO Output 1 nviGroupOutVal bitl nvoGroupOutValFb bit1 Output 2 nviGroupOutVal bit
76. 6 Data Points L INX Mode This section describes the data points available in a L IOB host which has L IOB devices connected to the LIOB Connect bus LIOB 10x models LIOB FT bus LIOB 15x models in LIOB FT device mode or LIOB IP bus LIOB 45x 55x models in LIOB IP device mode As soon as communication between the L IOB host and its connected L IOB devices is established the corresponding data points are available for the application running on the L IOB host Data points are available on the L IOB bus level device level and I O level Observe that some L IOB data points are read only e g ProductCode and some are write only e g PinCode For data points which can be read and written two virtual data points will be created on the L IOB host one with the extension Read and one with the extension Write 9 6 1 Bus specific Data Points The bus specific data point names are preceded with the L IOB bus number e g L1 FirstNonDCIndex Read e FirstNonDCIndex see Section 9 2 1 e MaxDeviceCount maximum number of L IOB devices on this L IOB bus 8 or 24 9 6 2 Device specific Data Points The device specific data point names are preceded with the L IOB bus number and L IOB station ID e g L1_2_ProductCode_Read e ProductCode see Section 9 2 6 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 95 LOYTEC e DeviceName see Section 9 2 7 e NID see Section 9 2 12 e StationID see Section 9
77. B devices all L IOB devices should go online The configuration run can also be started manually at any time by selecting Configure LIOBs in the menu Device Settings LIOB LIOB FT or LIOB IP This is required e g when a L IOB device is replaced without power cycling the L IOB host see Section 12 1 2 L IOB Devices can be enabled and disabled by pushing the jog dial on the corresponding device in Device Settings LIOB LIOB FT or LIOB IP and choosing Enable or Disable To activate the new setting a configuration run must be started afterwards by choosing Configure LIOBs as described above 7 2 L IOB Remote Access Version 4 8 The LCD Display of a connected L IOB device can be remotely accessed by pushing the jog dial on the corresponding device in menu Device Settings LIOB LIOB FT or LIOB IP and choosing Remote Display To leave the remote display mode again either push and hold the jog dial for at least 10s and then release it or exit via the Remote LCD Access menu item in the device configuration page of the L IOB device see Section 5 4 LOYTEC electronics GmbH LIOB 10x x5x User Manual 67 LOYTEC 7 3 L IOB Data Points The L IOB data points can be accessed in the menus Datapoints LIOB LIOB FT and LIOB IP Please refer to Section 9 6 for a detailed description of all L IOB data points at bus device and I O level Version 4 8 LOYTEC electronics Gmb
78. CP IP FTP 7 Telnet HTTP LIOB IP VNC for LCD UI Save Settings Jl Get Settings networks under control Enable DHCP IP Address IP Netmask IP Gateway Hostname Domainname DNS Server 1 leave empty to disable DNS Server 2 leave empty to disable DNS Server 3 leave empty to disable MAC Address NTP Server 1 leave empty to disable NTP Server 2 leave empty to disable NTP Status Link Speed amp Duplex I 192 168 12 80 255 255 192 0 192 168 1 1 LIOB 450 8000000140F 4 Use Factory Default 00 0 0 00 13 24 O pool ntp org 1 pool ntp org out of sync Auto Detect T The entries marked with are required for proper operation Figure 38 Port Configuration Page LOYTEC electronics GmbH LIOB 10x x5x User Manual 57 LOYTEC When selecting a protocol the protocol s communication parameters are displayed in a box on the right hand side To save the settings of the currently opened protocol click the Save Settings button Pressing Get Settings retrieves the current settings from the device 6 2 4 IP Configuration The TCP IP configuration is shown in Figure 38 The mandatory IP settings which are needed to operate the device are marked with a red asterisk IP address netmask gateway The Enable DHCP checkbox switches between manual entry of the IP address netmask and gateway address and automatic configuration from a DHCP server Hostname and Do
79. Chain LIOB Connect device mode 76 9 2 2 Station ID L INX Mode sssssssseeeeeeeen eene 76 9 2 3 Minimum Firmware Version L INX Mode sese 76 9 2 4 Enabled L INX Mode sse nennen ene 77 9 2 5 Allow Upgrade L INX Mode seen TI LOYTEC electronics GmbH LIOB 10x x5x User Manual 6 LOYTEC Version 4 8 9 3 9 4 9 2 6 Broduct Code etienne eei ien 77 9 27 Device eh see oh Sea 77 9 2 0 PIN e o tom 77 9 2 9 Alternative Unit 42 ohn ie Sets ai eei peteret 77 9 2 TO Language ed e Rer ren rr ee e ei ee ar ene TI 9 2 11 Group I O Min Max Send Times LONMARK TT 92I NID pe 77 9 2 13 Translation Tables eee pedi Eee eS 77 VO 77 9 3 Names kotha ae ee ee eet 78 93 2 Hardware Ty pe alee aan Gers 78 9 313 Sinal oci Re stein Shishi Retain Shige 78 9 3 4 Interpretation re ee tie ere e eap 78 9 35 Data Types ocupa HUE 80 9 3 6 SINE accesos Destin UE riw E 81 9 3 7 DeadTime for Fading and Ramping see 81 9 3 8 IOFunc GroupNumber and DeadTime for Interlocked Mode 81 9 3 9 IOFunc GroupNumber and SubGroupNumber for Switch Mode 81 9 3 10 IOFunc GroupNumber and SubGroupNumber fo
80. ET ACC flag must be set in order to perform this operation see Section 9 7 2 UCPTnominalPower specifies the nominal power see Section 9 3 29 UCPTminSendTimeCnt specifies the minimum send time for the run hours and energy count values This CP is set to 10min by default c CPTmaxSendTimeCnt specifies the maximum send time for the run hours and nergy count values This CP is set to 0 disabled by default CPTminSendTimeRavw reserved for future use U UCPTmaxSendTimeRaw reserved for future use U CPToutputExt reserved for future use LOYTEC electronics GmbH LIOB 10x x5x User Manual 108 LOYTEC 9 8 Data Points BACnet Mode This section describes the network data points provided by a LIOB 55x in BACnet device mode Since the L IOB device acts as a common BACnet node in this device mode the data points are represented as native BACnet server objects 9 8 1 BACnet Technology Data points in the BACnet technology are known as BACnet objects They have a specific type e g analog input or binary output and a set of properties which describe the data point more closely The actual value is stored in the Present Value On the device there exist two classes of BACnet data points e BACnet server objects SO These BACnet objects configured by the Configurator software to be allocated ocally on the device These objects can be accessed by the BACnet building control system or operating workstations They s
81. ET un IN Analog Digital 10V Select or multi select an I O in the Inputs Outputs list and observe the Object parameters list below These parameters can be used to configure the I O Object parameters Param Parameter name Parameter value Unit Range Description 0 vj Name RoomTemp Teminal name 1 HardwareType IN Analog Digital 10V Teminal type 2 SignalType Voltage 0 10V Type of the input output signal For example change the SignalType of the input UII to Resistance Note that the object configuration properties may change when changing the signal type or interpretation For detailed information on available configuration properties and their dependencies refer to Section 9 3 In this example you may now edit the Interpretation to NTC10K which will allow connecting an NTC temperature sensor to the input 2 SignalType Resistance gt a v Interpretation NTC1OK Check the Param check box if this configuration property shall be exposed to the LWEB 821 900 Master Parameter Editor Native BACnet objects can be created in the L IOB host using the BACnet objects checkbox The BACnet server object names and descriptions will initially receive unique I O names as described in Section 9 8 2 They can be set to the current I O names and descriptions by using the button Set BACnet Names I Os of the same hardware type can be copied using the Copy Object s and Paste Object s buttons This can also be do
82. H LIOB 10x x5x User Manual 45 LOYTEC 2 All devices are configured and set online At this point the L IOB data points are available in the L IOB host application 4 2 3 Device Installation LONMARK Non ECS device mode For LIOB 45x devices in LONMARK or Non ECS device mode the first step after hardware installation and IP setup is to add them to a CEA 852 channel see Section 5 4 or Sections 6 2 4 and 6 2 7 Both LIOB 15x and LIOB 45x devices in LONMARK or Non ECS device mode must then be installed and commissioned like any other CEA 709 LONMARK node Please consult the documentation of your CEA 709 network management tool on how to perform these tasks For LNS based network management tools the LOYTEC L INX Configurator Software acts as an LNS plug in to configure the L IOB devices It also installs the needed templates for all LIOB 15x 45x models when it is registered as a plug in in the network management software Both off and online installation of the L IOB devices is supported For Non LNS network management tools a LOYTEC NIC such as the NIC USB100 or NIC852 is needed for configuration The devices must be configured using the CEA 709 Connection method of the Configurator Software before installing and commissioning them in the network management tool Afterwards the device templates must always be created online from the L IOB devices if the network management tool does not support changeable network v
83. H LIOB 10x x5x User Manual 68 LOYTEC 8 L IOB Host Web Interface L INX Mode This chapter only applies to LIOB 10x models LIOB 15x models in LIOB FT device mode and LIOB 45x 55x models in LIOB IP device mode The L IOB host L INX or LIOB 48x 58x provides a Web interface to configure operate and test the connected L IOB devices It also provides statistics information about the L IOBs Refer to the L INX user manual 1 for general information on the L INX Web interface Refer to the LIOB x8x user manual 2 for general information on the LIOB 48x 58x Web interface 8 1 LIOB IP Bus for LIOB 45x 55x To be able to connect LIOB 45x 55x devices over the LIOB IP bus the firmware version of the L IOB host must be 4 8 or higher LOYTEC LINX 120 Logged in as Poti 2 Port3 4 Ethernet 32 05 Ethernet Sniffer IP address of LIOB host loca 5 FTP Port of LIOB host 16029 4 7 Telnet Device Info Wi SSH Local LIOB port 16028 Global Connections CEA 852 name local config O 709 over IP CEA 852 c 7 HTTP 7 Modbus x E KNX O 7 VNC for LCD UI gt Z RNI 0 CEA 709 5 OPC XML DA w Save Settings I GetSettings Statistics L WEB LIOB Reset Contact Logout Figure 51 LIOB IP Bus Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 69 LOYTEC After upgrading the L IOB host must be res
84. IN Analog Digital 10V with signal type Resistance It is used for connecting NTCIKS temperature sensor to the input Ni1000 This interpretation is only available for universal inputs hardware type IN Analog Digital 10V with signal type Resistance It is used for connecting a Ni1000 temperature sensor to the input Linear This interpretation is only available for universal inputs hardware type IN Analog Digital 10V It is used to perform a linear transformation from a physical input value resistance voltage or current see Section 9 3 3 to the actual value the sensor is supposed to measure e g temperature see Section 9 3 5 The input range is specified by the signal type o Resistance 0 10 o Voltage 0 10V 0 10V o Current 4 20mA 4 20 mA o Voltage 2 10V 2 10 V o Current 4 20mA Shunt 4 20 mA The output range is specified by MinValue and MaxValue see Section 9 3 20 In case of signal type Voltage 2 10V e g a measured value of 2 V would be transformed into MinValue and a measured value of 10 V would be transformed into MaxValue Frequency This interpretation is available for all inputs It is used to measure the frequency of the digital input resp universal input in digital mode The period used for measurement is specified by the MinSendTime parameter see Section 9 3 22 Translation Table This interpretation is only available for universal inputs hardware type
85. IN Analog Digital 10V It is used to perform a transformation from a physical input value resistance voltage or current see Section 9 3 3 to the actual value the sensor is supposed to measure e g temperature see Section 9 3 5 using a transformation table The table can be selected with TransTable see Section 9 3 23 The tables can be setup for each L IOB device as explained at the end of Section 10 2 3 Frequency Table This interpretation is available for all inputs It is used to perform a transformation from a frequency value measured as described above to the actual value the sensor is supposed to measure e g velocity see Section 9 3 5 using a transformation table The table can be selected with TransTable see Section 9 3 23 The tables can be setup for each L IOB device as explained at the end of Section 10 2 3 Physical Unit Count This interpretation is available for all inputs It is used to count in a certain physical unit The unit is setup with DataType see Section 9 3 5 The increment for each pulse is setup using the Resolution property see Section 9 3 16 Digital This interpretation is available for all I Os In case of an analog output the off and on output values are specified with OffValue and OnValue see Section 9 3 27 LOYTEC electronics GmbH LIOB 10x x5x User Manual 80 LOYTEC 9 3 5 DataType Pulse Count This interpretation is available for all inputs It is used to count pulses of the digital input
86. IOB 15x 45x 55x models For using external non LOYTEC power supplies please refer to Section 14 1 For connecting sensors and actuators to the L IOB I Os please refer to Sections 14 2 and 14 3 The next Sections describe the different power supply and cabling variants in detail depending on the connection method 3 5 1 LIOB Connect without Extension Version 4 8 Up to 4 L IOB devices can be directly connected to the L INX device in a physical daisy chain as depicted in Figure 25 LOYTEC electronics GmbH LIOB 10x x5x User Manual 37 LOYTEC Figure 25 LIOB Connect Daisy Chain The LPOW 2415A power supply to the left is equipped with a LIOB Connect port and can be attached to the L INX for powering both the L INX and the L IOB I O modules 3 5 2 LIOB Connect with Extension For space considerations or if the power supply is not sufficient for all connected L IOB devices more than 4 the LIOB Connect chain can be split into two or more segments of modules using LIOB A2 adapters and a 4 wire cable SEL GND A B as depicted in Figure 26 Max 4 Max 4 Optional if 8 pr d Length gt 1 Figure 26 LIOB Connect Extension The total length of the extension cable must be smaller than 50 meters If the length exceeds 1 meter a LIOB A2 adapter must be used at the end of the last segment as a termination with terminals and TERM connected as depicted in the bottom right o
87. IOB FT device mode Depending on the L IOB host up to 8 or 24 L IOB devices can be attached over LIOB FT The cable type topology and length are in accordance with the TP FT 10 specification The LIOB FT modules need additional setup Station ID as explained in Chapter 4 The CEA 709 Network Connection is available for the LIOB 15x models in LONMARK or Non ECS device mode The number of connectable devices cable type topology and length follow the TP FT 10 specification All rules of CEA 709 LONMARKQ devices regarding network installation management and maintenance apply A L IOB host is not required The LIOB IP port of a L IOB host is used to connect L IOB devices over Ethernet IP LIOB 45x 55x models in LIOB IP device mode Depending on the L IOB host up to 8 or 24 L IOB devices can be attached over LIOB IP The LIOB IP modules need additional setup e g IP address Station ID as explained in Chapter 4 The CEA 852 Network Connection is available for the LIOB 45x models in LONMARK or Non ECS device mode All rules of CEA 852 LONMARK devices regarding network installation management and maintenance apply A L IOB host is not required The BACnet IP Network Connection is available for the LIOB 55x models in BACnet device mode All rules of BACnet devices regarding network installation management and maintenance apply A L IOB host is not required Please refer to Section 5 4 for setting up the correct device mode in L
88. K Statistics Z wOK FAILED testing communication Uv A m CEA 852 E Enh Comm Test o CEA 709 Enhanced Communication Test Summary gt Far 5 D 4 Device s c OK return path not tested 0 Device s Contact FAILED 0 Device s Logout Figure 48 Enhanced Communication Test Output LOYTEC electronics GmbH LIOB 10x x5x User Manual 64 LOYTEC The Round Trip Time RTT is measured as the time a packet sent to the peer device needs to be routed back to the device It is a measure for general network delay If the test to a specific member fails a text is displayed to describe the possible source of the problem The reasons for failure are summarized in Table 4 Text displayed Web icon Meaning OK Return path not tested green Displayed for a device which is reachable but which does not support the checkmark feature to test the return path device sending to this CEA 852 device Therefore a potential NAT router configuration error cannot be detected If the tested device is an L IP it is recommended to upgrade this L IP to 3 0 or higher Not reachable not supported This is displayed for the CS if it is not reachable or the CS does not support this test To remove this uncertainty it is recommended to upgrade the L IP to 3 0 or higher Local NAT config Error This is displayed if the CEA 852 device is located behind a NAT router or firewall and the port forwarding in the NAT Router usuall
89. LIOB 102 is connected to the L INX via the LIOB Connect bus The terminal layout of the LIOB 102 is shown in Figure 12 LIOB CONNECT COM COM DO1 DO2 DO5 DO6 COM 192021222324 25 26 27 28 29 30 DIGITAL OUT a RESET On LED DISPLAY DIAL UNIVERSAL IN 123456789 0 10 V OUT 19 11 12 13 14 15 16 17 18 Version 4 8 Buttons STATUS Status Button Ui UM RESET Reset Button GND D GND and i UM Ul2 UI5 AO3 AO4 DIAL Turn and Push Dial GND GND GND Connectors Connectors UNIVERSAL 1 Input DIGITAL 19 Output DO1 INPUT 2 Input GND OUTPUT 20 Output Common for DO1 amp DO2 3 Input UI2 RELAY 21 Output DO2 4 Input UI3 6A 22 Output DO3 5 Input GND 23 Output Common for DO3 amp DO4 6 Input Ul4 24 Output DO4 7 Input UIS 25 Output DO5 8 Input GND 26 Output Common for DO5 amp 006 9 Input UIG 27 Output DOG ANALOG 10 Output AO1 28 Output DO7 OUTPUT 11 Output GND 29 Output Common for DO7 amp DO8 0 10 V 12 Output AO2 30 Output DO8 13 Output AO3 n Sut Fei 22 6 poles Weidm ller BLZP 5 08 06 180 16 Output AO5 9 poles Weidm ller BLZP 5 08 09 180 17 Output GND 0 2 2 5 mm 18 Output AO6 Figure 12 LIOB 102 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 25 LOYTEC 3 4 4 LIOB 103 The LIOB 103 is connected to the L INX via the
90. LIOB 10x x5x L IOB Module User Manual LOYTEC electronics GmbH LOYTEC electronics GmbH Blumengasse 35 1170 Vienna AUSTRIA EUROPE support loytec com http www loytec com Version 4 8 Document Ne 88078508 LOYTEC MAKES AND YOU RECEIVE NO WARRANTIES OR CONDITIONS EXPRESS IMPLIED STATUTORY OR IN ANY COMMUNICATION WITH YOU AND LOYTEC SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE THIS PRODUCT IS NOT DESIGNED OR INTENDED FOR USE IN EQUIPMENT INTENDED FOR SURGICAL IMPLANT INTO THE BODY OR OTHER APPLICATIONS INTENDED TO SUPPORT OR SUSTAIN LIFE FOR USE IN FLIGHT CONTROL OR ENGINE CONTROL EQUIPMENT WITHIN AN AIRCRAFT OR FOR ANY OTHER APPLICATION IN WHICH IN THE FAILURE OF SUCH PRODUCT COULD CREATE A SITUATION IN WHICH PERSONAL INJURY OR DEATH MAY OCCUR LOYTEC MAKES NO REPRESENTATION AND OFFERS NO WARRANTY OF ANY KIND REGARDING OF ANY THIRDPARTY COMPONENTS MENTIONED IN THIS MANUAL No part of this publication may be reproduced stored in a retrieval system or transmitted in any form or by any means electronic mechanical photocopying recording or otherwise without the prior written permission of LOYTEC LC3020 L Chip L Core L DALI L GATE L INX L IOB LIOB Connect LIOB FT L IP LPA L Proxy L Switch L Term L VIS L WEB L ZIBI and ORION stack are trademarks of LOYTEC electroni
91. LIOB Connect bus The terminal layout of the LIOB 103 is shown in Figure 13 DO1 DO2 DO4 DO5 DO1 DO2 DO4 DOS 19 20 21 22 DIGITAL OUT STATUS RESET 7 STATUS LED DISPLAY DIAL UNIVERSAL IN 0 10 V OUT 123456789 101112131415 16 17 18 LIOB CONNECT Buttons STATUS Status Button UM RESET Reset Button GND GND GND DIAL Turn and Push Dial JD A MED AS RET Connectors Connectors UNIVERSAL 1 Input UI1 DIGITAL 19 Output DO1 INPUT 2 Input GND OUTPUT 20 Output DO1 3 Input UI2 RELAY 21 Output DO2 4 Input UI3 16A 22 Output DO2 5 Input GND 23 Output 6 Input Ul4 24 Output 7 Input UI5 25 Output DO4 8 Input GND 26 Output DO4 9 Input UIG 27 Output DOS ANALOG 10 Output AO1 28 Output DO5 OUTPUT 11 Output GND 0 10 V 12 Output AO2 SES poles Weidm ller BLZP 5 08 04 180 13 Output AO3 6 poles Weidm ller BLZP 5 08 06 180 14 Output GND 9 poles Weidm ller BLZP 5 08 09 180 15 Output AO4 16 Output AO5 0 2 2 5 mm 17 Output GND 18 Output AO6 7 Figure 13 LIOB 103 terminal layout Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 26 LOYTEC 3 4 5 LIOB 150 The LIOB 150 is either connected to the L INX via the LIOB FT bus LIOB FT device mode or to any CEA 709 FT network LONMARK Non ECS device modes The terminal lay
92. O in the Inputs Outputs list and observe the Object parameters list below These parameters can be used to configure the I O Object parameters Parametername Parameter value Unit Range Description 0 RoomTemp Terminal name 1 Hardware Type IN Analog Digital 10V Teminal type 2 SignalType Voltage 0 10V Type of the input output signal Once the L IOB configuration is finished it can be downloaded into the connected L IOB device using Tools Download Configuration The data points of the L IOB device are represented as BACnet input or output server objects of the appropriate type according to the I O configuration LOYTEC electronics GmbH LIOB 10x x5x User Manual 20 LOYTEC 3 Hardware Installation 3 1 Enclosure The L IOB enclosures are 107 mm wide for DIN rail mounting following DIN 43 880 Figure 8 shows the LIOB 100 enclosure as an example j LO max 50 C RH min 0 C 40 90 96 o HHHHHHHHH EEEHEEHER ENS mm oO loooceocechoeoceoced 107 lt gt 112 eo od Figure 8 LIOB 100 Enclosure dimensions in mm 3 2 Product Label The product label on the side of the L IOB I O module contains the following information see Figure 9 e order number e g LIOB 100 LIOB 150 etc Version 4 8 LOYTEC
93. OB Connect Device Mode LIOB 10x This is the only available device mode for LIOB 10x devices It requires a L IOB host The L IOB devices are directly connected to the host as described in Section 3 5 4 1 2 LIOB FT Device Mode LIOB 15x This mode is similar to the LIOB Connect device mode of LIOB 10x devices It also requires a L IOB host The difference is that the connection between the LIOB host and the L IOB devices is done over the LIOB FT port instead of the LIOB Connect port as explained in Section 3 5 4 1 3 LIOB IP Device Mode LIOB 45x 55x This mode is similar to the LIOB FT device mode of LIOB 15x devices The only difference is that the connection between the L IOB host and the L IOB devices is done over the LIOB IP bus instead of the LIOB FT port 4 1 4 LONMARK Device Mode LIOB 15x 45x This is the standard device mode for LIOB 15x 45x devices The L IOB devices behave as independent nodes on a CEA 709 network They are LONMARK certified and support all current CEA 709 technologies such as the Enhanced Command Set ECS and a large number of network address table entries 512 A L IOB host is not needed 4 1 5 Non ECS Device Mode LIOB 15x 45x This mode is similar to the LONMARK Device Mode with the exception that the Enhanced Command Set ECS is not supported and thus the L IOB device only supports 15 address Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 44 LOYTEC table entries This mode
94. TEC electronics GmbH LIOB 10x x5x User Manual 127 LOYTEC 10 4 5 Using L IOB Data Points The data points of the LIOB 55x device are represented as BACnet server objects see Section 9 8 The corresponding data points can be found in the LIOB 55X BACnet Port Datapoints Local IO folder on the Datapoints tab see Figure 77 2 08 LI08 550 3 Favorites 0 Items System Registers 18 Items EJ User Registers 0 Items 17 Alarm 0 Items Trend 0 Items 2 0 BACnet Port A D Datapoints 22 Items Local 10 22 Items Figure 77 L IOB BACnet data point folder Usually the BACnet server objects of network devices will be integrated using a central controller and BACnet operator workstation In this case the following two sections are not relevant However if such a central controller is not available the L IOB BACnet server objects can also be directly connected to BACnet server objects on other devices using client mappings This is done in the Configurator by dragging an imported BACnet object and dropping it on the local L IOB BACnet server object Therefore it is required to first import the corresponding BACnet server objects from other devices which is achieved via BACnet network scan or EDE file import as described in the following two sections 10 4 5 1 Scan for BACnet Objects Version 4 8 LOYTEC devices support an online network scan on the BACnet network In this scan the device searches for other devices on t
95. ValFb bit7 nviGroupOutVal bit8 nvoGroupOutValFb bit8 nviGroupOutVal bit9 nvoGroupOutValFb bit9 Table 5 LIOB 150 450 Object Mapping Terminal Name 12 13 14 15 16 7 I8 DIS DI6 DI7 DIS DI9 DII1 DII2 DI13 DII4 DIS DI16 EE EN S E EE LIOB 151 LIOB 451 Functional Block Input 0 Input 1 Input 2 Input 3 Input 4 Input 5 Input 6 Input 7 Input 8 Input 9 Input 10 Input 11 Input 12 Input 13 Input 14 Input 15 Input 16 Input 17 Input 18 Input 19 Digital Group NV mapping nvoGroupInVal bitO nvoGroupInVal bit1 nvoGroupInVal bit2 nvoGroupInVal bit3 nvoGroupInVal bit4 nvoGroupInVal bit5 nvoGroupInVal bit6 nvoGroupInVal bit7 nvoGroupInVal bit8 nvoGroupInVal bit9 nvoGroupInVal bit10 nvoGroupInVal bit1 1 nvoGroupInVal bit12 nvoGroupInVal bit13 nvoGroupInVal bit14 nvoGroupInVal bit15 nvoGroupInVal bit16 nvoGroupInVal bit17 nvoGroupInVal bit18 nvoGroupInVal bit19 Table 6 LIOB 151 451 Object Mapping Terminal Name UD UB UI4 LIOB 152 LIOB 452 Functional Block Input 0 Input 1 Input 2 Input 3 Digital Group NV mapping nvoGroupInVal bitO nvoGroupInVal bit1 nvoGroupInVal bit2 nvoGroupInVal bit3 LOYTEC electronics GmbH LIOB 10x x5x User Manual Version 4 8 Terminal Name UI5 UI6 AOI AO2 AO3 4 5 AO6 DO2 DO3 DO4 DO5 DO6 DO7 DOS8 101 LOYTEC LIOB 152 LIOB 4
96. X via the LIOB Connect bus The terminal layout of the LIOB 100 is shown in Figure 10 LIOB CONNECT DO1 COM COM DO2 DO4 DO6 DO7 COM FUSE T 6 3 A 250 V 5x20 mm 192021222324 252627 282930 DIGITAL OUT STATUS RESET LED DISPLAY DIAL UNIVERSAL IN DIGITAL IN 0 10 V OUT Buttons STATUS Status Button RESET Reset Button DIAL Turn and Push Dial uus ud ui tia E ua m Connectors Connectors UNIVERSAL 1 Input DIGITAL 19 6A common fused for DO1 to DO5 INPUT 2 Input GND OUTPUT 20 Output DO1 3 Input UI2 RELAY 21 Output DO2 4 Input UI3 6A 22 Output DO3 5 Input GND 23 Output DO4 6 Input Ul4 24 Output DO5 7 Input UIS DIGITAL 25 Output DO6 8 Input GND OUTPUT 26 Output Common for DO6 amp DO7 9 Input UIG TRIAC 27 Output DO7 10 Input UI7 1A 28 Output DO8 11 Input GND 29 Output Common for DO8 amp DO9 12 Input UI8 30 Output DO9 DIGITAL 13 Input DI1 INPUT 14 Input GND cud 6 poles Weidm ller BLZP 5 08 06 180 15 Input DI2 Sho 9 poles Weidm ller BLZP 5 08 09 180 ANALOG 16 Output AO1 OUTPUT 17 Output GND 0 2 2 5 mm 0 10 V 18 Output AO2 E Version 4 8 ea Figure 10 LIOB 100 terminal layout LOYTEC electronics GmbH LIOB 10x x5x User Manual 23 LOYTEC 3 4 2 LIOB 101 Th
97. ader Mode eee eee eese 93 9 931 e tote le s en ee nies 93 9 5 2 Data Signal zi oe Ue eue Ode AE 93 9 5 3 Clock Signal otro ite UU tases theaters 94 Data Points L INX Mode esee ee eee eene nest aetate seta seen 94 9 6 1 B sspecific Data Points eee tret eie 94 9 6 2 Device specific Data 94 9 6 3 I O specific Data Points for Inputs eese 95 9 6 4 I O specific Data Points for Outputs sese 96 9 6 5 Parameters essent bene eg mee Deme pies 97 Data Points LONMARK Mode eee esee eere esee enne seen tne e setae sete tn aestas 97 9 7 1 Device Global Configuration Properties eeeeee 97 9 7 2 Node Object UFPTnodeObject Key 0 98 9 7 3 Common Terminal Object UFPTcomTerm Key 20013 99 9 7 4 Input Output Group Mapping eee 99 9 7 5 Input Object UFPTopenLoopSensor FPT Key 1 102 9 7 6 Output Object UFPTclosedLoopActuator Key 4 105 Data Points BACnet Mode eee ecce ee eee 108 9 8 BACnet Technology
98. an be written with values at a certain priority The value with the highest priority is in effect When revoking a written value the NULL value is written This takes back the value When all written values are withdrawn the Relinquish Default value is in effect The default value feature of a data point is mapped to the Relinquish Default property for commandable objects For BACnet objects which are not commandable the Present Value is initialized with the specified default value 9 8 2 Native BACnet Objects for l Os Version 4 8 On LIOB 55x devices in BACnet Mode the L IOB I Os are directly exposed to BACnet server objects Each L IOB I O object is represented by one BACnet object All relevant I O configuration properties are mapped to corresponding BACnet properties and reflect actual input output values I O status override manual values operating mode inversion and adhere to all prescribed BACnet functions For L IOB devices which are connected to a L IOB host L INX or LIOB 48x 58x via the LIOB Connect or LIOB FT IP bus L INX Mode the native BACnet objects can also optionally be created on the L IOB host The option can be switched for each I O in the Configurator Software LOYTEC electronics GmbH LIOB 10x x5x User Manual 109 LOYTEC Version 4 8 The type of the created BACnet server object depends on the type of the live value I O data point If e g a universal input UI is used for measuring an analog value the t
99. and is decoupled from the L IOB input value input or Priority_Array output Out_Of_Service is not set The Out_Of_Service Present_Value and Reliability properties are made read only and can no LOYTEC electronics GmbH LIOB 10x x5x User Manual 110 LOYTEC longer be written over BACnet This mode cannot be modified over the BACnet network o Disabled The BACnet object is set out of service the OVERRIDDEN flag is set and the reliability is set to fault detected The Out Of Service Present Value and Reliability properties are made read only and can no longer be written over BACnet This mode cannot be modified over the BACnet network OverrideValue In Override mode this value is written to the Present Value of the BACnet object at priority 1 When entering Override mode the current override value is written When leaving Override mode NULL is written at priority 1 for output objects and nothing is done for input objects For input objects in Override mode the override value is updated by the Present Value when written over BACnet ManualValue Manual mode the L IOB manual value is written to the Present Value property of the BACnet object The Present Value cannot be written over BACnet in Manual mode DefaultValue The L IOB default value is written to the Relinquish Default property of the BACnet object and vice versa if it exists Invert This L IOB parameter is writt
100. ariables If the network management tool does support changeable network variables the L IOB devices can also be created from the corresponding L IOB XIF files shipped with the L INX Configurator software folder XIF 4 2 4 Device Installation BACnet Mode Before the device can be used in the BACnet IP network the initial IP and BACnet setup must be done in the LCD UI see Section 5 1 or Web UI see Section 6 2 4 3 Device Monitoring and Replacement 4 3 1 Device Monitoring and Replacement L INX Mode Whenever a L IOB device loses communication with the L IOB host the host automatically detects the missing L IOB and starts to poll the L IOB device until it is detected again Refer to Chapter 12 for more information on L IOB device replacement 4 3 2 Device Monitoring and Replacement LONMARK Mode Device monitoring and replacement works like with any other CEA 709 LONMARK node Please consult the documentation of your CEA 709 network management tool on how to perform these tasks If a device needs to be physically replaced e g because it is defective please use the replace method of your network management tool For Non LNS based tools either download the old configuration in the new device beforehand using the CEA 709 Connection method of the Configurator Software or use the restore function of the Configurator if you have a recent backup of the original L IOB device available 4 3 3 Device Replacement BAC
101. ation can be created from an I O object in the Inputs Outputs list of the L IOB I Os tab by using the Export Object button next to the list In this case only the configuration of this I O is stored in an XML file Terminal configurations can be imported to I Os of the same hardware type by using the Import Object button 4 To setup translation tables for certain I O interpretation modes click the Translation Tables button in the L IOB Device tab see Figure 68 as well as the end of Section 10 2 3 10 3 5 Up and Download of Configurations Once the L IOB configuration is finished it can be downloaded into the connected L IOB device using Tools Download Configuration In case of an LNS connection this can also be done if the device is not yet physically connected to the network In this case only the LNS database is updated The download dialog will offer an option to reset all counter values in the L IOB device under LIOB options Reset counters All counter inputs as well as output run hours and energy counts will be reset in this case A configuration can also be uploaded from the connected L IOB device using Tools Upload Configuration In case of an LNS connection this can also be done if the device is not physically connected to the network or the network is offline In this case only the values from the LNS database are uploaded 10 3 6 Using L IOB Data Points The data points of the LIOB 15x 45x device are rep
102. ator and how to manage and use those data points Please refer to the L INX User Manual 1 for general information on the Configurator Software 10 1 Software Installation The L INX Configurator must be used to setup the data point configuration of the L IOB I O modules System requirements e Windows XP Windows 2003 Server Windows Vista Windows 7 or Windows 2008 Server The L INX Configurator can be downloaded from the LOYTEC Web site http www loytec com When asked for the type of installation there are two options to choose from Select Typical to install the required program files 10 2 Configuring L IOB Modules L INX Mode This section only applies to LIOB 10x models LIOB 15x models in LIOB FT device mode and LIOB 45x 55x models in LIOB IP device mode Please refer to Section 4 1 for more information on L IOB device modes It is assumed in the following sections that the Configurator Software is started on a L IOB host model capable of connecting LIOB Connect LIOB FT or LIOB IP devices L IOB tab available in the software 10 2 1 Add L IOB Modules Version 4 8 L IOB modules are added to the L IOB host configuration in the Configurator This configuration determines which L IOB modules are connected to the L IOB host in which I O configuration To Add a L IOB Module 1 Inthe Configurator change to the L IOB tab LOYTEC electronics GmbH LIOB 10x x5x User Manual 113 LOYTEC Datapoints Local Connectio
103. bled in the Web UI by un checking the corresponding Enable checkbox and clicking Save Settings again see Figure 55 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 71 LOYTEC LOYTEC LIOB LIOBFT Device Info ce Scan Config Finished installation of devices V Statistics D Index of first device notin daisy chain 9 L Web 9 Name Node ID Status Enable 5 1 LIOB 100 LIOB1 80 00 00 0E 1C 20 Online 2 2 LIOB 100 LIOB2 80 00 00 0E 1C 73 Online O 3 LIOB 100 LIOB3 80 00 00 0E 1C 69 Online v gt 4 LIOB 101 LIOB4 80 00 00 0D 28 D5 Online 2 5 LIOB 101 LIOBS 80 00 00 0D 28 8A Disabled n Contact 6 No device present Logout 7 No device present 8 No LIOB device present Figure 55 Disabled L IOB Device 8 3 L IOB Installation Page LIOB FT IP Bus The LIOB Installation page for the LIOB FT or LIOB IP bus is shown in Figure 56 It works similar to the Installation page of the LIOB Connect bus with a few differences LOYTEC LINX 120 Logged in as admin LIOBFT LIOB IP Device Info Scan LIOB Type Name Node ID Status Enable 1 LIOB 150 LIOB 150 80 00 00 0 76 6 Get Node ID Online 2 LIOB 150 LIOB 150 80 00 00 0 76 1 Get Node ID Online 3 LIOB 150 150 80 00 00 0 76 0 Get ID Online v LIOB 4 No device present m Overview erview 5 No device present m I
104. by scrolling down The live value and a few properties are shown for each I O of the L IOB devices The operating mode of each I O can be changed in the Mode column The Value column always shows the corresponding effective value e g the override value in override mode In case of manual operating mode see Section 9 3 11 the manual value is displayed and can be changed in the Value column By clicking on the link in the I O Name column a detailed view of each I O can be invoked see Figure 59 Please refer to Section 9 3 for a detailed description of all I O properties After changing configuration properties the user must click Save Settings to activate the new configuration in the L IOB device Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 74 LOYTEC Save Settings LIOB 480 Terminal UI1 Name Temp Input 33 20 C ManualValue 3320 C HardwareType IN Analog Digital 10V SignalType Resistance Interpretation NTC10K OperatingMode Manual LinkCfgVers 1 00 lOStatus OK SlUnit OnText C USUnit OffText F Resolution 0 10 C MultUS 1 80 OffsUS 32 00 OverrideValue 0 00 C DefaultValue 0 00 C Offset 0 00 C MinValue 273 15 C MaxValue 100 00 C 000 C MinSendTime 0 00 s Figure 59 L IOB I O Details 8 6 L IOB I O Test Page The LIOB Test page provides the possibility of documenting tests of the connected actuators and sensors This
105. changing the property by turning the jog dial By pushing the jog dial again the edit mode is left It is possible that changing properties is restricted via a PIN code In this case the user will be requested to enter a pin code before a value can be changed The pin code only needs to be entered once except when the device is not operated manually for more than 30 minutes To leave the configuration page the user must turn the jog dial until the title line I O name is selected and then push the jog dial Alternatively the jog dial can also be pushed anywhere on the page for at least 1 second Observe that depending on the hardware type signal type and interpretation of an I O the list of configuration properties varies Refer to Section 9 3 for detailed information on the different configuration properties In addition to the configuration properties described there for some I Os a RawValue property will be displayed It shows the physical measured value for inputs e g the resistance of an NTC resp the physical value for outputs e g the actual voltage for analog outputs Note that this information can be used for debugging sensors or actuators but is not available in the form of data points on the LIOB host For counting inputs two additional configuration options are available Pulse Count Reset and Count Start Value Using Pulse Count Reset the counter can either be reset to 0 or to the value set in
106. con to the right is selected the L IOB device information and configuration page is entered which allows viewing and changing device specific properties If the jog dial is pushed shortly on a device property the edit mode is entered which allows changing the property by turning the jog dial By pushing the jog dial again the edit mode is left Following is a list of all device properties LOYTEC electronics GmbH LIOB 10x x5x User Manual 49 LOYTEC Version 4 8 Remote LCD Access L INX Mode here the user can exit the remote LCD access This option is only available if the L IOB device is remotely accessed via the L IOB host s LCD Display see Section 7 2 Pin Code Access here the user can explicitly log in and out with PIN code This option is only available if a PIN code is set for the device Operating Mode here the user can change the operating mode of all I Os except for disabled I Os which can only be changed via the I O configuration page of that specific I O Display Contrast here the user can setup the LCD display contrast DHCP IP Address Mask Gateway LIOB 45x 55x models here the user can configure the IP settings of the device Observe that they must be confirmed with Save IP Settings see below IP Addr LIOB Host LIOB IP device mode here the user can configure the IP address of the L IOB host the L IOB device in LIOB IP device mode shall be integrated with Observe that NAT routers are not supported
107. configured Firmware Image shows if the L IOB device has booted the primary or fallback image should always be primary Firmware Version version of L IOB primary firmware image Firmware Build firmware build timestamp LOYTEC electronics GmbH LIOB 10x x5x User Manual 50 LOYTEC Serial Number serial number of the L IOB device Node ID world wide unique node ID of the L IOB device CPU Load current CPU load on the L IOB device System Temperature current L IOB system temperature Supply Voltage current supply voltage of the L IOB device Last Fatal Error shows the last detected fatal error Last Reset L INX Mode timestamp of last reset resp power cycle of the L IOB device This is only set correctly if the L IOB device is connected to a L IOB host Current Date Time shows the current date and time of the L IOB This is only set correctly if the L IOB device is connected to a L IOB host or time server Name of LIOB Host L INX Mode shows the name of the L IOB host e g L INX device Host Project File L INX Mode shows the file name of the L IOB host project Host Project Name L INX Mode shows the name of the L IOB host project Host Project Date L INX Mode shows the creation date and time of the L IOB host project Reset Count Values here the user can set back all count values counting inputs and the run hours and energy count of all outputs Reset Device here the user can reset the device or se
108. configured as e Binary Input Digital Input input impedance gt 20 sampling rate 10 ms o In voltage mode the threshold values are lt 0 8 V for low level and gt 2 V for high level o Inresistance mode the threshold values lt 1 9 for low level and 6 7 kO for high level Between the threshold values the resulting level of the UI is not defined e Voltage Metering 0 10 V input impedance gt 20 sampling rate 1 s resolution 0 1 V e Current Loop 4 20 mA input impedance 249 sampling rate 1 s An internal shunt of 249 is available for some universal inputs Otherwise an external resistor of 249 must be used as a shunt e Resistance Measurement input impedance 10 sampling rate 1 s Resistors in the range of 1 kO to 100 kQ can be measured 16 1 2 DI Digital Input Counter Input SO Pulse DIs are fast binary inputs which can also be used as counter inputs SO They follow the SO specification for electric meters and have a sampling rate of 10 ms They change state at a load of 195 Q between the DI terminal and GND Galvanically isolated sensors resp switches must be connected 16 1 3 AO Analog Output AOs are analog outputs with a signal range of 0 to 12V a resolution of 10 bits and a maximum output current of 10 mA short circuit proof Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 145 LOYTEC 16 1 4 DO Digital Output The following digital out
109. cs GmbH LonTalk LONWORKS Neuron LONMARK LonMaker i LON and LNS are trademarks of Echelon Corporation registered in the United States and other countries LIOB 10x x5x User Manual 3 LOYTEC Version 4 8 Contents Introduction o eoe ea reno an eed ve so dae LO 1 1 1 2 13 uM 14 PA Quick Start Guid E LO 2 1 22 2 3 Quick Start Guide L INX Mode ceres eee ee eee eee eese enne ette tn seen au 15 2 1 1 Hardware Installation ente rer a o 15 2 1 2 Configuration eit PR pH Pes 15 Quick Start Guide LONMARK Mode esee ee eene ee eee eese en seen ne etnu 17 2 2 1 Hardware Installation i nnne enne 17 2 2 2 COMMISSIONING oerte hi eee eh it tege ens 17 2 2 3 Configuration see e Ee eh 17 Quick Start Guide BACnet Mode 4 ecce eee eren esee eene eee en esee tnuu 18 2 3 1 Hardware Installation eee 18 2 3 2 BACnSUIP e teet P p AE dee 19 273 3 Configuration oen ee p IE i 19 3 Hardware Installation eere ee ee ee eese eene eese eese ee eesesssssseeeeeeeessssssssss 3 1 32 3 3 3 4 3 5 Enclosure ao an eed eR soecsossuascdscasedesesasasebecdstesoosamascbocesucsoasasns 20 Product n
110. cumented in Section 16 4 and the following Sections Figure 86 shows the connection of a 4 20mA transmitter to a universal input with internal shunt 9 24V DC 4 20mA Source Transmitter bonam GND Figure 86 4 20 transmitter with internal shunt on UI 14 2 5 2 4 20mA Transmitter connected to UI with External Shunt On universal inputs which do not have an internal shunt an external shunt must be used as shown in Figure 87 The signal type must be set to Current 4 20mA in the Configurator software 9 24V DC 4 20mA Source Transmitter L Figure 87 4 20mA transmitter with external shunt on UI 14 2 6 Connection of Resistive Sensors Figure 88 shows the connection of resistive sensors to the universal inputs with a temperature sensor as an example Sensors in the resistance range of 1 to 100 can be measured The signal type must be set to Resistance in the Configurator software Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 138 LOYTEC Temperature Sensor r q Figure 88 Temperature measurement on UI 14 2 7 Connection of STId Card Readers Figure 89 shows the connection of an STId card reader to three L IOB inputs UIs or DIs Observe that the clock signal must be connected to an interrupt capable input of the L IOB device More information on STId card readers can be found in Section 9
111. d 6A Relays on LIOB xx3 seseeeeeeeneneeeeen 139 14 3 5 External Relays and Inductive Loads eee 140 143 6 LA T r1a68 OE RON Un eig 140 14 3 7 12V Analog Outputs sess een rennen 141 15 Security Hardening Guide eee e eee ee eere ee eene eese seeess sees 142 15 1 15 2 15 3 15 4 15 5 Installation Instructions eeeeeee eese eee tatnen senten aestu 142 Igiencli m 142 Iud pee 142 SOP VICOS pore M M RN UR M ARE E EN 143 Logging and Auditing eeeeeee eere eee eese eese ee ette sete setate ss setas etna s ena 143 16 Specifications eee 144 16 1 16 2 16 3 16 4 16 5 16 6 16 7 VO SpecifiCatiOTi PE CES Pe Xa sinar sose s eso arasi 144 16 1 1 UI Universal ertet es 144 16 1 2 DI Digital Input Counter Input SO Pulse sees 144 16 1 3 AO Analog Output sees nennen eene rennen 144 16 1 4 DO Digital Output unen tne Dt E it Hn ERR ERR 145 16 15 PRESS Pressure SensOt i treten ertet Fete E ES 145 Internal Translation Tables ceres eres eee eee n eene testen sensn 145 Maximum Number of L IOB Devices per L IOB Hlost 145 Specification for LIOB 10x Models
112. d Device s button as shown in Figure 2 Datapoints Local Connections Global Connections Connection Overview Statistics LogiCAD Files LOB L WEB Projects Web Interface Add Device s Duplicate Device s l Delete Device s Export Template Upgrade Template Import Termini LIOB Chiller 1 Devices LIOB Heater 2 UOB FT Station ProductCode Device name Minimum firmware version Enabled Allow upgr PIN NID LIOB 100 LIOB Chiller 22 2 LIOB 100 LIOB Heater 22 vi v 00 00 00 00 00 00 vp Down Figure 2 Add L IOB devices to the LIOB Connect bus LOYTEC electronics GmbH LIOB 10x x5x User Manual 16 LOYTEC 2 Select a L IOB device in the tree on the left hand side and enter names for the I Os by double clicking into the Name column as shown in Figure 3 Datapoints LIOB Local Connections Global Connections Connection Overview Statistics LogiCAD Files L WEB Projects Web Interface LIOB Chiller 1 LIOB Heater 2 LIOB FT LIOB IP Inputs Outputs Nr a TerminalNr Terminal Name Hardware type Figure 3 Change I O names Temp Outsidel IN Analog Digital 10V 2 2 GND12 GND UI1 UI2 IN Analog Digital 10V 3 3 Dr un IN Analog Digital 10V 4 4 uB UB IN Analog Digital 10V BACnet objects count 3 Select an I O and change the object parameters to configure this I O You can multi s
113. d readers see Section 9 5 Occupancy is detected using a sensor which creates pulses whenever the room is occupied These pulses are converted to an occupancy value in the following way e When pulse is detected the value changes to OCCUPIED and stays there for at least the HoldTime e When new pulses are detected during the HoldTime the timer for the HoldTime is started again e When no pulse is detected within the HoldTime the state goes back to UNOCCUPIED e From this moment on all pulses from the sensor are ignored for as long as the DebounceTime lasts This is useful e g when light is switched off due to detecting the UNOCCUPIED state which leads to new pulses of the sensor and in turn leads to switching on the light again To break this loop the debounce time is used In case of interpretation Switch Mode the HoldTime specifies the time to distinguish between short and long pushes The DebounceTime is used to distinguish between a combined push or two consecutive pushes of a 2 switch group LOYTEC electronics GmbH LIOB 10x x5x User Manual 85 LOYTEC 9 3 26 EventGroup Modes and Values The EventGroupXyzModes e g EventGroup1ShortPushMode and EventGroupXyzValues e g EventGroup1ShortPushValue are available for Inputs with Interpretation Switch Mode LONMARK Non ECS device mode only Refer to Section 9 4 for more information 9 3 27 OffValue and OnValue The off and on value properties are availab
114. dTime is set to 0 all changes of the inputs or output feedbacks immediately generate updates For inputs with interpretation Frequency or Frequency Table see Section 9 3 4 the MinSendTime property also specifies the period used for frequency measurement For inputs with interpretation Switch Mode the MinSendTime property specifies the repeat time for the long push events see Section 9 4 9 3 23 TransTable The translation table property is available for all inputs with interpretation Translation Table or Frequency Table see Section 9 3 4 It specifies the translation table which shall be used for the translation The configuration of translation tables is explained at the end of Section 10 2 3 9 3 24 NTC Rn NTC Tn and NTC B The Rn Tn and B properties are available for inputs with interpretation Custom NTC see Section 9 3 4 Tn is specified in degree Celsius Rn is the resistance of the NTC temperature sensor at the temperature Tn The temperature value is calculated using the formula T B Tn 273 16 degC B In R Rn Tn 273 16 degC 273 16 degC T is the calculated temperature in degree Celsius and R is the measured resistance of the NTC temperature sensor 9 3 25 HoldTime and DebounceTime Version 4 8 These properties are available for all inputs where the Interpretation is set to Occupancy or Switch Mode The HoldTime is also available for the data signal of STId car
115. ded No No No gt Input Inactive Input Inactive Input Inactive Yes Yes Yes Y y v Process Process ShortRelease LongRelease v v Switch Event Switch Event Group one input Group one input mode only mode only Y E E Figure 62 Switch Mode Flow Chart The event ShortPush is fired when the input becomes active ShortRelease is fired when the input becomes inactive again before the HoldTime see Section 9 3 25 LongPush is fired when the input is still active after HoldTime If the MinSendTime see Section 9 3 22 is greater than O for the input the LongPush event is fired consecutively with a period of MinSendTime as long as the input stays active If the input becomes inactive again after HoldTime LongRelease is fired For each event a Mode and a Value property is available as listed above The Value properties determine the values which shall be sent out when the corresponding events occur They therefore always have the same type as the live value network variable of the input The Mode properties determine the modes and conditions under which the Values are sent out They are enumerations which define the following modes Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 87 LOYTEC Version 4 8 Disabled No value is sent out if the event occurs If all modes of EventGroup2 are set to disabled the EventGroup2 is disabled completely no switching between event groups Set The value is sen
116. different interlocked groups digital outputs belonging to one interlocked group have the following characteristics e Ifa positive output value is written it is interpreted as a period in ms in which the output shall be switched on After that period the output is automatically switched off again e IfOis written to the output value the output is switched off immediately e If negative output value is written the output is switched on permanently e Whenever an output is switched on as described above it is checked before if another output in the same interlocked group is already switched on In this case the other output is switched off immediately Then for a period setup with DeadTime all outputs of the group remain off After that finally the new output is switched on either for a certain period of permanently The interlocked mechanism can be used e g for sunblind motors where it must be ensured that the up and down motors are never active at the same time 9 3 9 IOFunc GroupNumber and SubGroupNumber for Switch Mode The IO function group number and sub group number properties are available for all inputs with interpretation Switch Mode only available for LONMARK Non ECS device mode If IOFunc is set to 2 Switch Group the GroupNumber property can be used to form different two input groups With the SubGroupNumber property the two inputs must be assigned to either the function Switch 1 or
117. dimming 2 xml universal inputs DI two button dimming l xml DI two button dimming 2 xml digital inputs This example uses two inputs in a 2 Switch Group For the first input the following properties are changed from the default values in this example DataType Switch switch members value state IOFunc 2 Switch Group GroupNumber X must be the same as for second input SubGroupNumber Switch 1 MinValue 10 1 MaxValue 100 1 MinSendTime 0 2s HoldTime 1s DebounceTime 0 1s EventGroup1ShortReleaseMode Set State EventGroup1ShortReleaseValue 0 1 EventGroup1LongPushMode Increment EventGroup1LongPushValue 1 1 EventGroup2ShortReleaseMode Set EventGroup2ShortReleaseValue 0 0 EventGroup2LongPushMode Decrement EventGroup2LongPushValue 1 1 For the second input the following properties are changed from the default values in this example DataType Switch SNVT_switch members value state IOFunc 2 Switch Group GroupNumber X must be the same as for first input SubGroupNumber Switch 2 HoldTime 3s DebounceTime 0 1s EventGroup1ShortReleaseMode Set EventGroup1ShortReleaseValue 100 1 EventGroup1LongPushMode Set EventGroup1LongPushValue 0 1 LOYTEC electronics GmbH LIOB 10x x5x User Manual 92 LOYTEC The first input is configured and works exactly like the input in the one button dimming example Section 9 4 3 3 except for the conditional
118. dules in BACnet Mode support internal technology independent data points as well as other advanced features such as alarming scheduling and trending AST similar to the LIOB I O controllers Since the main purpose of LIOB I O modules is to directly expose I Os to the control network CEA 852 or BACnet IP these function will usually not be required For more information on technology independent data points and AST please refer to the L INX user manual 1 or LIOB x8x user manual 2 9 2 Bus and Device Configuration Each L IOB device has certain configuration properties which are global to the whole bus LIOB Connect or LIOB FT IP device modes or one device The following sections describe these properties 9 2 1 Index of first Device not in Daisy Chain LIOB Connect device mode This is a property which is only available for the LIOB Connect port It is only required if the LIOB Connect bus is extended with a 3 wire cable without select signal instead of a 4 wire cable In this case the property specifies the first device after the 3 wire cable 9 2 2 Station ID L INX Mode Each L IOB device is assigned a station ID 1 24 unique to the L IOB bus The station ID represents the position of the L IOB device in the L IOB host configuration In case of LIOB Connect it also represents the physical position in the daisy chain see Chapter 4 9 2 3 Minimum Firmware Version L INX Mode This property can be used to specify a minimum for
119. e If this NV is written the value of the output in manual mode is set The type of the NV is determined by the SCPTnvType CP see Section 9 7 6 4 9 7 6 2 Output Network Variables nvoOutValueFb changeable This is the feedback value of the output It always represents the current physical value of the output If e g the value A is written to the nviOutValue NV of the output but the output is in manual mode and the user has set value B manually the feedback value will be value B The type of the NV is determined by the SCPTnvType CP see Section 9 7 6 4 nvoOutManual changeable This NV is updated whenever the value of the output in manual mode is changed on the L IOB LCD Display The type of the NV is determined by the SCPTnvType CP see Section 9 7 6 4 nvoOutLink io link This NV is only used internally by the Configurator software and is not required during normal operation nvoOutRunHours SNVT elapsed tm This NV represents the total time the digital output was switched on nvoOutEnergy SNVT elec kwh This NV represents the energy consumption of the device or appliance e g lamp connected to the output see also Section 9 3 29 nvoOutEnergyF SNVT elec f same as nvoOutEnergy but using a float type SNVT nvoOutPower SNVT power reserved for future use nvoOutCurrent SNVT current reserved for future use nvoOutVoltage SNVT voltage reserved for future use nvoOutPhase SNVT phase res
120. e LIOB 101 is connected to the L INX via the LIOB Connect bus The terminal layout of the LIOB 101 is shown in Figure 11 GND GND GND 011 DI2 015 016 DI9 0110 GND De D 0111 0112 or 0600660664066060009 rj 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 DIGITAL IN xr RESET On LED DISPLAY DIAL UNIVERSAL IN DIGITAL IN 12345678 9 10111213 14 15 16 17 18 o60000000H500060000 18 STATUS Status Button RESET Reset Button uo ae T ud EHE and i UM Ul2 UI5 0116 0115 DIAL Turn and Push Dial GND GND GND Connectors Connectors UNIVERSAL 1 Input 011 DIGITAL 19 Input DI1 555 INPUT 2 Input GND INPUT 20 Input GND SJ 3 Input UI2 21 Input DI2 4 Input UI3 22 Input DI3 5 Input GND 23 Input GND 9 poles 6 Input Ul4 24 Input 014 Weidm ller 7 Input UI5 25 Input 015 BLZP 5 08 09 180 8 Input GND 26 Input GND 9 Input UIG 27 Input DI6 0 2 2 5 mm 10 Input UI7 28 Input DI7 41 Input GND 29 Input GND SS 12 Input UI8 30 Input DI8 7 DIGITAL 13 Input DI16 31 Input DI9 INPUT 14 Input GND 32 Input GND 15 Input DI15 33 Input DI10 16 Input DI 14 34 Input DI11 17 Input GND 35 Input GND 18 Input DI13 36 Input DI12 Figure 11 LIOB 101 terminal layout Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 3 LIOB 102 LOYTEC The
121. e Parameters e Nr Param Parameter value Parameter name 0 LIOB 100 ProductCode 1 Ivi MyLIOB DeviceName 2 000000000000 V i StationID 4 v PinCode 5 v FMWVersion 6 FMWTimestamp 7 ivi Serial 8 v v Enabled Refer to Section 9 2 for more information on the other device specific configuration properties 10 2 2 Configure l Os Once a L IOB device has been added to a configuration the I Os have a default configuration To adapt the I Os to the specific needs in a project they can be freely configured Note that certain changes to the I O configuration must be committed before proceeding with other tasks This can be done explicitly by clicking Commit changes Otherwise the user will be requested to commit by the Configurator Changes can be canceled by clicking Cancel changes Version 4 8 To Configure I Os 1 Select a L IOB device LIOB Configuration tree MyLIOB 1 LOYTEC electronics GmbH LIOB 10x x5x User Manual 114 LOYTEC The L IOB tab displays the I Os available on that L IOB device in the Inputs Outputs list Inputs Outputs Nr TerminalNr Terminal Name Hardware type DP count IN Analog Digital 10V 22 2 GND12 GND UI1 UI2 IN Analog Digital 10V 3 3 um Uu IN Analog Digital 10V 22 4 4 uB uB IN Analog Digital 10V 22 To adapt the I O name double click the name in the Name column and edit it e g RoomTemp Nr 2 TeminalNr Terminal Name Hardware type E
122. e incoming output value is ignored in the L IOB device and the physical output is set to OverrideValue This can be used e g for a 4 20 mA sensor which needs a 12 V supply voltage e Manual The incoming output value is ignored in the L IOB device and the physical output value is set by the user on the LIOB LCD UI see Chapter 5 This can be used to test actuators The DefaultValue is also used for outputs when no output value has yet been received by the L IOB device resp after a reboot if the persistent flag is not set see Section 9 3 12 9 3 12 Persistent Flag The persistent flag is available for all outputs It specifies the behavior of the L IOB outputs after a power cycle of the L IOB device or when the L IOB device loses connection to the L IOB host If it is set the output is set to the last stored value in the mentioned scenarios If it is cleared the output is set to the DefaultValue see Section 9 3 11 Since the output values are only stored in the L IOB device approx every 20 minutes it is possible that even in the first case the output value temporarily changes 9 3 13 Invert Flag The invert flag is available for all I Os in digital PWM mode or where the input is used to detect resp count pulses In the first case the invert flag is used to invert the input or output In the second case the flag specifies whether the pulse shall be detected at the positive or negative edge Observe that if the SignalType is set to
123. e synchronization For doing so the BACnet address of the devices which shall be synchronized must be added to the device object of the BACnet time master The device synchronizes automatically as soon as it is contacted by the BACnet time master The time zone offset must be defined independently of the time source It is specified as the offset to GMT in hours and minutes e g Vienna Austria is 01 00 New York USA is LOYTEC electronics GmbH LIOB 10x x5x User Manual 55 LOYTEC 06 00 For setting the daylight saving time DST predefined choices are offered for Europe and USA Canada DST can be switched off completely by choosing none or set manually for other regions In that case start and end date of DST must be entered in the fields below LOYTEC LIOB 450 Logged in as Go to TCP IP Configuration to configure the IP settings admin 5 2012 07 05 09 20 50 ead Date Time Time sync source auto X o Local Date 2012 07 05 yyyy mm dd Device Info V Local Time 09 20 50 hh mm ss T UTC Date Time 2012 07 05 09 20 50 Config 5 Timezone offset 00 00 hh mm m System Daylight saving time DST None W Passwords 3 DST start ist Su gt Jan 0000 hh mm o DST end st 5 gt Jan gt 0000 hh mm Gum Save Date Time GetDate Time gt Reset Earth Position Contact C Latitude 48 13 14 N Longitude 16 20 05 f Logout Altitude 20 m Save Earth Position GetEarth Position
124. e that this means that all L IOB devices after the replaced one will reboot 2 Go to the LIOB Installation page of the L INX Web UI and click Save Settings or go to the Device Settings LIOB page of the L INX LCD UI Chapter 7 and click Configure LIOBs 3 The L IOB devices will be configured as shown in the L INX Web UI or LCD UI At the end of the configuration run all L IOB devices including the replaced device will be online again In case not all L IOB devices come online check the status of the L IOB devices in the L INX Web UI or LCD UI LOYTEC electronics GmbH LIOB 10x x5x User Manual 132 LOYTEC 12 1 3 LIOB FT IP Device Replacement This Section only applies to LIOB 15x devices in LIOB FT device mode and LIOB 45x 55x devices in LIOB IP device mode The L IOB replacement on the LIOB FT IP bus can be performed using the following steps 1 Replace the L IOB device with a new device of the same model and set the device to LIOB FT resp LIOB IP device mode see Section 4 1 2 For LIOB 45x 55x devices at first the IP and host configuration must be done see Section 4 2 2 3 Inthe L IOB LCD interface setup the station ID of the new device as it was configured in the replaced device see Section 4 2 2 4 Inthe L IOB LCD interface start a configuration run also see Section 5 4 5 After a few minutes all L IOB devices including the replaced device will be online again In case not all L IOB devices come
125. e you may now edit the Interpretation to NTC10K which will allow connecting an NTC temperature sensor to the input I Os of the same hardware type can be copied using the Copy Object s and Paste Object s buttons 10 3 4 Manage L IOB Configurations L IOB configurations can be managed by the user One may duplicate the device for repeated use in the project Also a new template may be generated from the L IOB configuration which can be re used in other projects Version 4 8 To Manage L IOB Configurations 1 To export a new template for a L IOB configuration click the Export Template button in the L IOB Device tab In the file save dialog enter a new L IOB template file name and store it This file can then be used in a different project using the Import Template button Existing configurations can be updated with new L IOB templates by using the Upgrade Template button in the L IOB Device tab This can be used e g to migrate new functions which were not yet available in earlier template versions It is highly recommended to backup the original L IOB project before upgrading templates After upgrading the template a log is displayed which shows all information about the upgrade process Please carefully review this log before using the updated configuration LOYTEC electronics GmbH LIOB 10x x5x User Manual 123 LOYTEC 3 Another way of managing L IOB configurations is using terminal configurations A terminal configur
126. ecting to a L IOB Module For connecting to a LIOB 55x device in BACnet device mode 1 Select the FTP connection method by clicking on the Connect to device button D e E a ep in the tool bar of the main window The connect dialog as shown in Figure 74 opens containing the managed device connection templates LLI Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 125 6 f Y B Device Connection Templates ct me L ROC DL Status Idle UNX OG3 aaa UNX 101 NR Name 480 110 NR 110 STS Serial No 021301 8000000140F9 Delete a Admin Password eeeeeeee LINX 120 AB2 LINX 121 LIOBTST LINX 151 AD1 TCP IP Connection CEA 709 Connection LINX 151 PP DOB AS0 Hostname or IP Address 19216812140 LIOB 152 7 AB LIOB 154 AB Use secure connection BORABOAR SSH Port 22 LIOB 180 JOW LIOB 180 12 FIPPort 21 LOB 181 LIOB 182 Telnet Port 23 E HTTPPort 80 LIOB 184 Test LIOB 450 AB LIOB 451 AB LIOB 480 AB m x 2 Figure 76 TCP IP connection dialog To add a new device connection click on New or select an existing connection in the tree on the left hand side Enter the host name or IP address of the device Enter the admin password The default password is loytec4u If your device is located behind a NAT router or firewall you may change the FTP Telnet SSH and HTTP ports t
127. elect I Os and change the parameters for all selected I Os see Figure 4 Datapoints Local Connections Global Connections Connection Overview Statistics 4 UOB LIOB Heater 2 LIOB FT LIOB IP LogiCAD Files LOB L WEB Projects Web Interface Inputs Outputs Nr TerminalNr Terminal Name Hardware type BACnet objects DP count Operating Mode Group Description Horizontal Vertical Split 1 Temp Outside IN Analog Digital 10V 22 A B 2 2 GND12 GND UI1 UI2 IN Analog Digital 10V SEE Room Temp IN Analog Digital 10v il 22 A Copy Oaea 4 4 uB uB IN Analog Digital 10V 22 Paste Object s 5 5 GND34 GND UI UI4 IN Analog Digital 10 Export Object 6 6 ul IN Analog Digital 10V _ 22 A I m ALS Import Object Previous Next Object parameters Nr a Param Parameter name Parameter value Unit Range Description go Commit Changes 0 Vi Name Terminal name nic 1 HardwareType IN Analog Digital 10V Terminal type 2 SignalType Resistance mj Type ofthe input output signal 3 Interpretation Interpretation of the input signal 4 DataType Custom NTC Data type of input output signal E 5 Ivi OperatingMode EHI Operating mode 6 SIUnit OnText NTCiK8 Unit text for SI unit 7 USUnit OffText uiu Unit text for US unit 8 Resolution Frequency 0 inf Display jog dial resolution Lj 9 MultUS Translation Table SI to US unit mu
128. electronics GmbH LIOB 10x x5x User Manual 15 LOYTEC 2 Quick Start Guide This chapter shows step by step instructions on how to configure the L IOB I O module for a simple application 2 1 Quick Start Guide L INX Mode Observe that this quick start guide only covers the LIOB Connect LIOB 10x LIOB FT LIOB 15x and LIOB IP LIOB 45x 55x device modes see Section 4 1 For this guide it is assumed that the L IOB host is a L INX automation server 2 1 4 Hardware Installation Depending on the L IOB model the L IOB I O modules can either be attached directly to the LIOB Connect bus the LIOB FT bus of the L INX device or Ethernet IP For LIOB 10x devices LIOB Connect connect the first L IOB device to the L INX by sliding it from top to bottom at the right side of the L INX see Figure 1 The plastic fitting on the side holds the module in place and the gold contacts attach the L IOB module to the LIOB Connect bus Connect further L IOB devices the same way to the last L IOB device already connected 2 1 2 Configuration Version 4 8 Configuration of the L IOB devices is achieved using the L INX Configurator software see the corresponding user manual 1 The L INX Configurator uses a separate tab to configure the L IOB devices The L IOB device configuration can be done offline and is shown in the following steps To Configure L IOB I Os 1 Add L IOB devices on the L IOB tab from the supplied L IOB templates using the Ad
129. electronics GmbH LIOB 10x x5x User Manual 21 LOYTEC e Date Code which defines the production week and year e Serial number with bar code SER e Node ID of the device Models with an Ethernet IP interface additionally contain the MAC address on the label Node ID of the device LOYTEC electronics GmbH Date Code NID1 8000000E1C69 LIOB 100 C FE MADE IN EC W26 2010 006101810000F 12A07 Serial number of the device Figure 9 L IOB product label Unless stated otherwise all bar codes are encoded using Code 128 An additional label is also supplied with the L IOB for documentation purposes 3 3 Mounting L IOB devices come prepared for mounting on DIN rails following DIN EN 50 022 The devices can be mounted in any position However an installation place with proper airflow must be selected to ensure that the L IOB s temperature does not exceed the specified range see Section 16 4 3 4 Terminal Layout The L IOB device provides pluggable screw terminals to connect to sensor and actuator hardware The screw terminals can be used for wires of maximum thickness of 2 5 mm AWGI3 Refer to Section 16 1 for the specification of all I O hardware types The next sections show the terminal layouts for the different L IOB models Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 1 LIOB 100 22 LOYTEC The LIOB 100 is connected to the L IN
130. electronics GmbH LIOB 10x x5x User Manual 39 LOYTEC LT 33 bus topology Figure 28 LIOB FT Bus Topology 3 5 5 CEA 709 Network Connection in Free Topology or Bus Topology The connection of LIOB 15x devices in LONMARK or Non ECS device mode works exactly like in LIOB FT device mode refer to Sections 3 5 3 and 3 5 4 The only difference is that instead of the connection to the LIOB FT port of a L INX device the L IOB devices are directly connected to a CEA 709 network 3 5 6 LIOB IP Connection Figure 29 shows the connection of LIOB 45x 55x modules LIOB IP device mode to a L INX Observe that communication over NAT routers is not supported for the LIOB IP bus The L IOB devices can either be powered by L POWSs middle part of Figure 29 or other 24 V power supplies bottom part of Figure 29 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 40 LOYTEC Figure 29 LIOB IP Connection 3 5 7 CEA 852 Network Connection The connection of LIOB 45x devices in LONMARK or Non ECS device mode works exactly like in LIOB IP device mode refer to Section 3 5 6 A L IOB host is not needed in this case There could still be e g a L INX device in the network acting as the CEA 852 configuration server though 3 5 8 BACnet IP Network Connection The connection of LIOB 55x devices in BACnet device mode works exactly like in LIOB IP device mode refer to Section 3 5 6 A L IOB h
131. electronics GmbH LIOB 10x x5x User Manual 61 LOYTEC the Ethernet port The BACnet IP protocol settings are displayed in the settings box on the right hand side as shown in Figure 44 If the BACnet IP network uses a non default UDP port number other than 47808 0xB ACO enter this port in the BACnet IP port field Enter 0 in this field for switching back to the default setting LOYTEC LIOB 550 Logged in as Ethernet TCP IP FIP BACnet IP port OxBACO Telnet HTTP VNC for LCD UI BACnet IP admin 1988 01 02 02 55 35 Device Info SSSS8 Config Save Settings GetSettings L Port Config j networks under control Figure 44 BACnet IP Configuration 6 2 10 Data Points and AST BACnet Mode The LIOB 55x I O modules in BACnet Mode support internal technology independent data points as well as alarming scheduling and trending AST similar to the LIOB I O controllers The corresponding Web UI device configuration items are named Data Points Trend Scheduler Calendar and Alarm Since the main purpose of LIOB I O modules is to directly expose I Os to the control network CEA 852 or BACnet IP these function will usually not be required For more information on technology independent data points and AST please refer to the L INX user manual 1 or LIOB x8x user manual 2 6 3 Device Statistics The device statistics pages provide advanced statistics information about
132. en to the Polarity property of BACnet BO and BI objects and vice versa IOStatus The I O status is reflected in the Reliability property of the BACnet object o NO FAULT DETECTED If the I O does not report any error o OUTPUT NO SENSOR If an output or sensor failure is detected o COMMUNICATION ERROR If the L IOB host reports a communication error o UNRELIABLE OTHER For all other problems Feedback Read For L IOB outputs in digital mode the feedback value is written to the Feedback Value property of the BACnet BO object For L IOB outputs in analog mode the feedback value is written to the dedicated BACnet AI feedback object MinValue MaxValue Resolution For analog BACnet objects these L IOB configuration properties are written to the corresponding BACnet properties when they change The BACnet properties are read only from the BACnet network I O Name and Description Initially the BACnet server object name and description are both set to e g 11 1 UII for UII In the Configurator the BACnet server object name and description can later be modified manually or synchronized with the current I O name and description 9 9 Default Configuration Version 4 8 Every L IOB device is shipped with a default I O configuration which can be used right away This configuration is the same in every device mode see Section 4 1 and is dependent on the hardware type see Section 9 3 2 of the corresponding I O Universal Input
133. ental Protection TP 40 enclosure IP 20 screw terminals Power Supply 24 VDC 24 VAC 10 Installation DIN rail mounting EN 50 022 Interface 1 x BACnet IP or LIOB IP configurable Types LIOB 550 LIOB 551 LIOB 552 LIOB 553 LIOB 554 Power Consumption W 1 7 2 6 all Relays on 1 7 1 7 2 7 17 125 not yet available Universal Input UD 8 8 6 6 not yet available Digital Input DI 2 12 not yet available Analog Output AO 2 6 6 not yet available Digital Output DO 8 4 x Relay 4 x Triac 8 8x 5 4 x Relay not yet available Relay 16 1x Relay 6 A Digital output specification Relay 6 A Relay 6 Relay 16 A not yet available Triac 1 A 24 230 VAC and 6 A Internal shunt available for UI5 amp UI6 UI5 amp UI6 UB amp UI4 UB amp UM not yet available current measurement 017 amp UI8 017 amp UIS UIS amp 016 UI5 amp 016 Supported STId card 3 2 1 readers Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 150 LOYTEC 17 References 1 L INX User Manual LOYTEC electronics GmbH Document Ne 88073015 December 2012 2 LIOB x8x User Manual LOYTEC electronics GmbH Document Ne 88080304 December 2012 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 151 LOYTEC 18 Revision History Date Version Author Description 2010 10 25 2010 11 11 2011 03 08 A AB Added LIOB 150 Model A Added LIOB 151
134. er Parameter Editor tool see Figure 63 LOYTEC LWEB 821 Master Parameter Editor File Database office widenhag db SQLite database View C Configure Views Upload Parameters Download Parameters Device LINX AB LIOB LUN AB LIOB LIOB1 UI1 LINX AB LIOB LIOB1 UI2 LINX AB LIOB LIOB1 UI3 LINX AB LIDB LIDBT UI4 LINX AB LIDB LIOB1 UI5 LINX AB LIOB LIOB1 UIG LINX AB LIOB LIOB1 UI T LINX AB LIOB LIOB1 UIS LINX AB LIOB LIOB1 DIT LINX AB LIDB LIDB1 DI2 LINX AB LIDB LIOB1 A01 LINX AB LIOB LIOB1 A02 LINX AB LIGB LIOB1 001 LINX AB LIOB LIOB1 D02 LINX AB LIDB LIDB1 DO3 LINX AB LIDB LIDB1 DO4 LINX AB LIOB LIOB1 DO5 lt Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Manual Override Disabled S _ 1000 UL NTCIOK UL NTCIKB UI_Ni1000 Ul Linear Ul Frequency UL Trans Table DI Digital DI Cnt AD Digital Analog DO Digital DO PwM manual override disabled i oC orc 0 oc oc oc orc 0 CL Dc o e o C oc oc S SS Cust 1 NTC NTC Ni10 Linear Freq Tran Digital Puls Digital Anal Digital PWM Digital Digital Digital S S 8 c DC Se orc 15 15 15 15 15 15 C 15 0
135. erved for future use 9 7 6 3 Read Only Configuration Properties SCPTobjMajVer major version of object SCPTobjMinVer minor version of object SCPTmaxNVLength maximum length of changeable type NVs 4 UCPTioHwType hardware type of physical output see Section 9 3 2 UCPTioHwFlags hardware flags reserved for future use UCPTswCycleCntInit number of switching cycles of the digital output This CP is useful for estimating the expected remaining life time of a relay Observe that this data is never reset not even by a reset to factory defaults see Section 3 6 3 9 7 6 4 Read Write Configuration Properties Version 4 8 SCPTnvType specifies the type of the changeable NVs see Section 9 3 6 UCPTioDataType specifies the high level data type of the output see Section 9 3 5 UCPTioDispInfo specifies the unit texts for analog outputs or the active inactive texts for digital outputs Section 9 3 15 the resolution Section 9 3 16 alternative unit multiplicator and offset Section 9 3 17 UCPTioName specifies the name of the output see Section 9 3 1 LOYTEC electronics GmbH LIOB 10x x5x User Manual 107 LOYTEC Version 4 8 UCPTioOpmode specifies the operating mode see Section 9 3 11 SCPTovrBehave specifies the override behavior This is set by the Configurator software so that in override mode the override value SCPTovrValue is used SCPTovrValue specifies the override value see Section 9 3 11 SCPTdefOutput
136. et to factory defaults to activate the new bus The LIOB IP bus will be enabled by default as shown in Figure 51 It is possible to disable the LIOB IP bus entirely by un checking the LIOB IP checkbox The corresponding UDP TCP ports 16028 and 16029 will then not be open anymore on the L IOB host Observe that the LIOB IP bus only acts as a virtual medium connecting the L IOB host with the LIOB 45x 55x devices over Ethernet IP The rest of the configuration device enumeration etc must still be done as for LIOB 15x devices see Section 8 3 8 2 L IOB Installation Page LIOB Connect Bus The LIOB Installation page for the LIOB Connect bus without a configuration is shown in Figure 52 LINX 120 Logged in as LIOB LIOB FT LIOB IP admin 2012 12 13 22 18 39 Device Info Config Statistics L WEB Contact Logout 2 c 9 Index offirst device not in daisy chain 25 LIOB Name Node ID Status Enable 1 LIOB 100 80 00 00 0E 1C 20 Not configured c 2 LIOB 100 80 00 00 0E 1C 73 Not configured A 3 LIOB 100 80 00 00 0E 1C 69 Not configured x 4 LIOB 101 80 00 00 0D 28 D5 Not configured 5 LIOB 101 80 00 00 0D 28 8A Not configured 0 6 No device present 7 No device present 8 device present 9 No LIOB device present 10 No LIOB device present 22 No LIOB device present 23 No LIOB device present 24 No LIOB device present Save S
137. ettings Get Settings Figure 52 LIOB Connect Device Installation and Scan 8 2 1 L IOB Scan and Configuration Run Version 4 8 Even without any configuration the L IOB bus can be scanned to check which L IOB devices are connected to the L IOB host This can be done by clicking Scan During the scan process the status of the connected L IOB devices is shown in the web page At the end the page should e g look like Figure 52 In this case 3 LIOB 100 devices and two LIOB 101 devices have been found For all shown L IOB devices the Name is blank and the Status is Not configured since the L IOB host does not have a configuration downloaded yet If a configuration is downloaded to the L IOB host using the Configurator software see Chapter 10 a configuration run is started automatically and if the configuration matches the physically attached L IOB devices all L IOB devices should go online The configuration run can also be started manually at any time by clicking Save Settings This is required e g when a L IOB device is replaced without power cycling the L IOB host see Section 12 1 2 Figure 53 shows the LIOB installation page after clicking Save Settings LOYTEC electronics GmbH LIOB 10x x5x User Manual 70 LOYTEC LOYTEC LINX 120 Logged in as admin LIOB LIOB FT Device Info Scan Config V Statistics D Index of first device notin daisy chain 9
138. evice Tab In the Device Parameters table the device specific configuration properties can be set To Configure L IOB I Os 1 Select the LIOB I Os tab Device V Os 2 The LIOB I Os tab displays the I Os available on that L IOB device in the Inputs Outputs list Inputs Outputs Nr a TeminalNr Terminal Name Hardware type 1 1 un un IN Analog Digital 10V 2 3 ul2 ul2 IN Analog Digital 10V 3 4 IN Analog Digital 10 3 To adapt the I O name double click the name in the Name column and edit it e g RoomTemp Nr 4 TeminalNr Terminal Hardware type ERIT m IN Analog Digital 10 4 Select or multi select an I O in the Inputs Outputs list and observe the Object parameters list below These parameters can be used to configure the I O Object parameters Nr Parametername Parameter value Unit Range Description 0 RoomTemp Terminal name 1 Hardware Type IN Analog Digital 10V Teminal type 2 SignalType Voltage 0 10V mi Type of the input output signal 5 Once the L IOB configuration is finished it can be downloaded into the connected L IOB device using Tools Download Configuration 6 The data points of the L IOB device are represented as network variables NVs and configuration properties CPs The NVs can now be polled or bound in the network management tool 2 3 Quick Start Guide BACnet Mode Observe that this quick start guide only covers the BACnet device mode
139. ew one device configuration is restored by using Tools Restore Device Configuration LOYTEC electronics GmbH LIOB 10x x5x User Manual 124 LOYTEC 10 3 9 Printing Labels For documentation purpose I O labels can be printed and glued to the top and bottom of the LIOB enclosure It is recommended to use Avery L6031REV labels for printing To Print the L IOB labels 1 Start the Configurator and open the L IOB project to print labels for 2 Select menu File Print 3 This opens the Print View dialog as shown in Figure 71 Select Export LIOB Labels on the left side 4 Click on Export to generate a PDF file of the labels 5 Click on Open to open the file in a separate PDF reader window Click on Save to save the PDF file 6 Print the PDF directly from the PDF reader embedded in the print view or from the opened saved PDF file 10 4 Configuring L IOB Modules BACnet Mode This section only applies to LIOB 55x models in BACnet device mode Please refer to Section 4 1 for more information on L IOB device modes Observe that unlike the LIOB 45x models the LIOB 55x models in BACnet Mode support advanced features such as technology independent data points alarming scheduling and trending AST etc Please refer to the L INX user manual 1 and LIOB x8x user manual 2 for more information on these advanced features In this section only the essential features for operating as a BACnet I O module are covered 10 4 1 Conn
140. f Figure 26 Observe that the extension must be done exactly as depicted in Figure 26 even if it is just used for providing sufficient power supply and not to overcome space issues 3 5 3 LIOB FT in Free Topology Figure 27 shows the connection of LIOB 15x modules LIOB FT device mode to the LIOB FT port of a L INX device in free topology which can be used for cable lengths of up to 500 m between any two devices Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 38 LOYTEC Figure 27 LIOB FT Free Topology The L IOB devices can either be powered by L POWs middle part of Figure 27 or other 24 V power supplies bottom part of Figure 27 The LIOB FT port of the L INX terminals A and must be connected to all LIOB 15x devices One LT 33 terminator free topology terminals must be placed somewhere in the network 3 5 4 LIOB FT in Bus Topology Figure 28 shows the connection of LIOB 15x modules LIOB FT device mode to the LIOB FT port of a L INX device in bus topology which must be used for a cable length of above 500 m The L IOB devices can either be powered by L POWs middle part of Figure 28 or other 24 V power supplies bottom part of Figure 28 The LIOB FT port of the L INX terminals and must be connected to all LIOB 15x devices forming a physical bus An LT 33 terminator bus topology terminals must be placed at both ends of the bus Version 4 8 LOYTEC
141. fthe input output signal For example change the SignalType of the input to Resistance Note that the object configuration properties may change when changing the signal type or interpretation For detailed information on available configuration properties and their dependencies refer to Section 9 3 In this example you may now edit the Interpretation to NTCIOK which will allow connecting an NTC temperature sensor to the input The native BACnet server object names and descriptions will initially receive unique I O names as described in Section 9 8 2 They can be set to the current I O names and descriptions by using the button Set BACnet Names I Os of the same hardware type can be copied using the Copy Object s and Paste Object s buttons 10 4 3 Manage L IOB Configurations L IOB configurations can be managed by the user One may duplicate the device for repeated use in the project Also a new template may be generated from the L IOB configuration which can be re used in other projects To Manage L IOB Configurations 1 To export new template for L IOB configuration click Export Template button in the L IOB tab In the file save dialog enter a new L IOB template file name and store it This file can then be used in a different project using the Import Template button Existing configurations can be updated with new L IOB templates by using the Upgrade Template button in the L IOB tab This can be used e
142. guage as is UCPT LANGUAGE ENG 1 English o LANGUAGE GER 2 German Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 99 LOYTEC o UCPT LANGUAGE FRA 3 French nviTimeSet SNVT time stamp When writing to this NV the system time is set The time value is interpreted as local time nvoSystemTemp SNVT temp This NV can be used to poll the system temperature of the device It does not send updates and must be polled nvoSupplyVolt SNVT volt This NV can be used to poll the supply voltage of the device It does not send updates and must be polled nvoGroupInVal SNVT state 64 This NV combines the binary values of all inputs with interpretation digital or occupancy The mapping of its bits is documented in Section 9 7 4 The NV has mapped a SCPTmaxSendTime and a SCPTminSendTime CP see Section 9 2 11 nviGroupOutVal SNVT state 64 This NV allows setting all outputs with interpretation digital at once The corresponding bits for outputs with other interpretations are ignored The mapping is documented in Section 9 7 4 nvoGroupOutValFb SNVT state 64 This NV combines the binary feedback values of all outputs with interpretation digital The mapping is documented in Section 9 7 4 The NV has mapped a SCPTmaxSendTime and a SCPTminSendTime CP see Section 9 2 11 9 7 3 Common Terminal Object UFPTcomTerm Key 20013 These functional blocks contain CPs of the co
143. guration property data points are exposed to BACnet properties e Input_Read For L IOB inputs in Auto mode the input value is written to the Present_Value property of the BACnet input object When switching from another operating mode to Auto the current input value is also written e Output_Write The Present Value of the BACnet object is written to the physical output in Auto mode e OperatingMode o Auto The BACnet object is in normal operation as described above Out_of_service and OVERRIDDEN flags of the BACnet object are cleared o Override Input The BACnet input object is set to out of service The Present_Value no longer reflects the physical L IOB input value The L IOB override value is coupled to the Present_Value and vice versa Writing the Out_Of Service property over the BACnet network can turn the Override mode on or off except if in Manual or Disabled mode o Override Output The BACnet output object is set to out of service The Present_Value no longer writes to the L IOB output value The L IOB override value is coupled to priority slot 1 and vice versa It is removed from priority slot 1 when returning to Auto mode Writing the Out Of Service property over the BACnet network can turn the Override mode on or off except if in Manual or Disabled mode o Manual The BACnet object is set OVERRIDDEN The Present_Value reflects the manual value
144. gure 1 L IOB installation with L INX device The LIOB 10x modules are added to the L INX automation server using the LIOB Connect system An example is shown in Figure 1 To add a L IOB module to the L INX device slide the module from the top to the bottom The plastic fitting on the side holds the module in place and the gold contacts attach the L IOB module to the LIOB Connect bus The L IOB modules are powered through the LIOB Connect bus Depending on the L INX device up to 8 or even 24 L IOB devices can be stacked up this way in a daisy chain The LIOB 15x modules are either connected over the LIOB FT port of a L INX device or over any CEA 709 FT network LONMARK Non ECS device modes This allows connecting remote I Os over standard FT cabling The LIOB 45x modules are either connected via the LIOB IP protocol of a L INX or LIOB 48x 58x device or over any CEA 852 network LONMARK Non ECS device modes In both cases the physical connection is done via Ethernet IP LOYTEC electronics GmbH LIOB 10x x5x User Manual 14 LOYTEC 1 2 Scope Version 4 8 The LIOB 55x modules are either connected via the LIOB IP protocol of a L INX or LIOB 48x 58x device or over any BACnet IP network BACnet device mode In both cases the physical connection is done via Ethernet IP Whenever a L INX or LIOB 48x 58x device is needed as a L IOB host the L IOB device mode is abbreviated as L INX Mode This covers the LIOB Connect device
145. he BACnet network and pulls in the BACnet object information of these devices These BACnet objects can then be used on the device as the basis for client mappings To Scan for BACnet Objects 1 Goto the Datapoints tab 2 Select the folder BACnet Network Scan Imported 9 BACnet EDE File BACnet Network Scan 3 Right click on that folder and select Scan BACnet Network This opens the BACnet Network Scan dialog as shown in Figure 78 LOYTEC electronics GmbH LIOB 10x x5x User Manual x No Device Name Instance No Mac Address 1 FX03 00000C 12 oc 10001 124 0 2 EY36AS 2682 0 48 14 52 0 80 0 Scan Objects 3 PCD3 2685 0 48 14 55 0 245 0 4 449 08 05 2686 0 48 14 56 0 791 5 Alerton 9999 15 10001 252 0 6 LINX 150 17800 0 48 14 96 0 24 0 I 7 Delta DSM RTR 20000 00 10001 98 0 8 LVIS ME2xx 21903 CO AB OF F3 BA CO 0 7 0 9 ISP 4 28 01 42801 0 48 12 46 0 3 0 Device Scan Mode 10 ISP4 30 01 43001 0 48 12 51 0 515 0 11 LIS ME2xx 219020 CO A8 13 14 BA C0 0 27 0 Fast Defaut v 219053 0 0 12 LVIS ME2xx C0 A8 13 35 BA CO i Status done Found 29 Show Details Scanner Device 192 168 24 203 Close Figure 78 BACnet network scan dialog 4 Click on the button Discover Devices This starts a network scan The results are put in the device list box A progre
146. he CEA 852 unit It is configured by the configuration server If there are any two devices in the channel which use the same IP address but different ports e g multiple devices behind one NAT router the channel switches to Extended NAT mode Please refer to the L IP User Manual to learn more about configuring the Extended NAT mode in the configuration server The configuration server sets the SNTP server addresses and the Channel timeout The filed Escrow timeout defines how long the CEA 852 unit on the L IOB waits for out of sequence CEA 852 data packets before they are discarded Please enter the time in ms or 0 to disable escrowing The maximum time is 255 ms The field Aggregation timeout defines the time interval in which multiple CEA 709 packets are combined into a single CEA 852 data packet Please enter the time in ms or 0 to disable aggregation The maximum time is 255 ms Note that disabling aggregation will negatively affect the performance of the CEA 852 device of the L IOB The field MD5 authentication enables or disables MD5 authentication Note that MD5 authentication cannot be used together with the Echelon s i LON 1000 since the i LON 1000 is not fully compliant with the CEA 852 authentication method MD5 can be used with the i LON 600 In the following field MDS secret enter the 16 byte MDS secret Note that for security purposes the active MDS secret is not displayed You may enter the 16 bytes as one string or
147. he L IOB device can be displayed by clicking on system log The LIOB communication statistics part shows statistics information of the communication bus These values are mainly used for support and debugging Product code LIOB 100 Device name LIOB1 Pin code 1234 Firmware version 1 0 1 0 Build date 2010 10 14 14 37 58 Serial number 014502 8000000E 1C20 Node ID 80 00 00 0E 1C 20 CPU load 26 5 System temperature 328 C Supply voltage 23 1V Last reset 2010 10 14 14 45 33 Status Online View system log Seconds since cleared 2274 Transmission errors 0 Transmit TX success failures 52110 0 100 00 0 00 Receive TX full 0 Lost messages 0 Missed messages 0 Layer 2 received 3322 Layer 3 received 188 Layer 3 transmitted 7915 Transmit TX retries 0 Backlog overflows 33 Late acknowledgments 0 Collisions 0 Out buffers used 718758 In buffers used 0 TCL active 0 1 TSPs used 1 TSPs deleted n Figure 57 L IOB Device Information and Statistics 8 5 L IOB Overview Page The LIOB Overview page provides a quick overview of all L IOB devices and their I Os This page is also available for the local I Os of a L IOB host LIOB 48x 58x Figure 58 shows the Overview page for the first L IOB device of a LIOB Connect bus With Reset AII Count Values the counter inputs as well as the run hours and energy count values of all outputs can be reset This can also be done for each L IOB device individually by clicking the Reset Count
148. ice object The field Device name holds the name of the BACnet device object property Object Name Important The device ID and device name must be unique within the BACnet inter network LOYTEC LIOB 550 Logged in as admin BACnet firmware version 4 5 1988 01 02 02 53 08 Device ID 212550 Device name LIOB001 Device description BACnet O Device Info Y E Device location unknown 5 APDU timeout 10 s c APDU segmenttimeout 5 s 2 APDU retry count 3 x These settings must be specified and unique on the network Save Settings Get Settings 2 U C Figure 43 BACnet Device Configuration Further the description and location can be configured These configuration items correspond to the properties Description and Location respectively of the BACnet Device object For tuning BACnet application timing parameters set APDU timeout APDU segment timeout and APDU retry count The timeout values are entered in seconds allowing decimal notation e g 7 5 Note If this page displays the message Device communication is disabled via BACnet network the device has been externally disabled Reboot the device to activate communication again 6 2 9 BACnet IP Configuration BACnet Mode Version 4 8 For LIOB 55x devices in BACnet Mode the BACnet IP protocol is enabled by default since it is the only means to communicate in a control network The protocol is available on LOYTEC
149. ime see Section 9 3 25 The release events are fired when at least one input becomes inactive again Both inputs must become inactive again before any new event is fired after that The live value and feedback network variables of both inputs are fully functional Between the two feedback network variables the latest received value always wins 9 4 3 Examples Version 4 8 The following sections present some typical examples of using the switch mode All examples can be found as I O object template files in the folder LIOB objects of the L INX Configurator Software Since the switch mode is available both for universal and digital inputs there are two versions of each example file xyz xml and DI xyz xml The example files using the two input mode are named xyz_1 xml and xyz _2 xml If LOYTEC electronics GmbH LIOB 10x x5x User Manual 89 LOYTEC several two input two button examples are used within one L IOB device the GroupNumber properties must be changed so that each 2 Switch Group has a unique group number 9 4 3 1 Simple Switch This example is implemented in the following I O object template files e Ul simple switch xml universal input DI simple switch xml digital input The following properties are changed from the default values in this example e DataType Switch SNVT switch members value state e EventGroupIShortPushMode Set e EventGroup1ShortPushValue 100 1 e EventGr
150. ion of the L INX Configurator Software is already registered in the database This will ensure that the required device templates for the different L IOB models are installed and the Configurator Software is registered for these models These templates are used to create and commission L IOB devices off or online in the database Once the devices are created the Configure function of the network management tool can be used to invoke the Configurator Software Alternatively the LNS connection can also be done explicitly in the Configurator Software by choosing Connection Connect via LNS This will invoke the LNS connection dialog shown in Figure 72 r n Connect to s Status Show Details Networks Channels in network liob test 021 liob test 021 Channel 1 liob test 022 liob test 023 liob test 025 liob test 026 liob test 027 liob test 028 liob test 029 liob test 031 liob test 033 liob test 034 liob test 036 liob test 037 Devices on channel Channel 1 Type Device Name Node ID Program ID Subnet Node LIOB 15x FT 10 Device 3 8000000E76E0 8000D705018A0402 1 18 Close Figure 72 LNS Connection Dialog Here the user can choose the network database channel and L IOB device to connect to 10 3 1 2 Connection via LOYTEC NIC For non LNS based network management tools the L IOB devices are configured independently from the network management tool by directly connec
151. it This is a flag which is set if this device shows US units instead of SI units 9 2 10 Language This is the language setting of the L IOB LCD Display English German or French 9 2 11 Group I O Min Max Send Times LONMARK Mode These are parameters to setup a minimum wait time and maximum time between updates of the digital group network variables in LONMARK Mode 9 2 12 NID The NID worldwide unique Node ID of each L IOB device is a standard requirement for each CEA 709 device In L INX Mode it is used by the L IOB host to detect L IOB devices after a reboot and also to automatically enumerate L IOB devices 9 2 13 Translation Tables Translation tables are used to translate a physical input value resistance voltage current or frequency to the actual value the sensor is supposed to measure e g temperature The configuration of translation tables is explained at the end of Section 10 2 3 9 3 I O Configuration Each I O in a L IOB device has certain configuration properties which are specific to that I O Not all listed properties are available for all I Os dependent on the hardware type and certain other configuration properties The following sections describe the I O properties and their dependencies Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 78 LOYTEC 9 3 1 Name The name property is available for all I Os It is the user defined name of the I O e g Temperaturel 9 3 2 Hard
152. ither connected to the L INX via the LIOB FT bus LIOB FT device mode or to any CEA 709 network LONMARK Non ECS device modes The terminal layout of the LIOB 152 is shown in Figure 16 COM COM 24 FT DO1 DO2 COM DOS DO6 COM 19 20 21 22 23 24 25 26 27 28 2930 31 32 33 34 POWER DIGITAL OUT LIOB FT STATUS RESET 1 STATUS LED DISPLAY DIAL UNIVERSAL IN 0 10 V OUT 123456789 101112131415 161718 Buttons STATUS Status Button RESET Reset Button GND GND GND DIAL Turn and Push Dial Connectors Connectors UNIVERSAL 1 Input UI1 POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY 20 Input 24 V MINUS or AC 3 Input UI2 Do NOT ground 4 Input UI3 Input 19 24V 5 Input GND TP FT 10 21 LIOB FT Input A 6 Input Ul4 CEA 709 22 LIOB FT Input B 7 Input UI5 DIGITAL 23 Output DO1 8 Input GND OUTPUT 24 Output Common for DO1 amp DO2 9 Input UIG RELAY 25 Output DO2 ANALOG 10 Output AO1 6A 26 Output DO3 OUPUT 11 Output GND 27 Output Common for DO3 amp DO4 0 10 V 12 Output AO2 28 Output DO4 13 Output AO3 29 Output DO5 14 Output GND 30 Output Common for DO5 amp DO6 15 Output AO4 31 Output DO6 16 Output AO5 32 Output DO7 17 Output GND 33 Output Common for DO7 amp DO8 18 Output AO6 34 Output DO8 Figure 16 LIOB 152 terminal layout
153. l Config button Itis also possible to export such a terminal configuration from an existing project using the Export Terminal Config button After choosing a file location and name the user will be asked if only customized objects shall be exported If this option is enabled only L IOB devices with custom I Os where changes have been made will be exported To setup translation tables for certain I O interpretation modes click the Translation Tables button Translation Te Translation Tables 7 Nr Type In Type Out conti een ae m i Add Table DeleteTable impotrabe Export Table Translation table entries Nr xin Resistance 1000000000 15 000000 2 2000000000 25 000000 3 5000000000 _ 35000000 4 10000000000 40000000 Add Entry Del Ent Import Values Export Values emm Figure 68 L IOB Translation Tables You can add and delete tables using the buttons Add table and Delete table The data types for the xin and xout columns of the table can be setup in Type In and Type Out In the Translation table entries list you can enter the xin and xout values The translation is done with linear interpolation from measured xin values to xout values which are used for the L IOB data points Further the table values can be exported and imported CSV files with Import values and Export values 10 2 4 Using L IOB Data Points Ve
154. l go from to Disconnected if the sensor is disconnected e PulseTime time between the last two pulses for signal interpretation Pulse Count or Physical Unit Count see Section 9 3 4 This can be used to quickly detect a change of the derivative of the physical value e g a change of the electric power if the measured physical value is electric energy Note that the PulseTime data point must be activated via the PulseTime flag see Section 9 3 14 e OperatingMode see Section 9 3 11 LOYTEC electronics GmbH LIOB 10x x5x User Manual 96 LOYTEC e OverrideValue see Section 9 3 11 e DefaultValue see Section 9 3 11 e Offset see Section 9 3 19 e MinValue see Section 9 3 20 e MaxValue see Section 9 3 20 HoldTime see Section 9 3 25 e DebounceTime see Section 9 3 25 e PulseCountInit when this data point is written the pulse count is reset to the written value This applies to inputs with Interpretation Pulse Count or Physical Unit Count see Section 9 3 4 9 6 4 I O specific Data Points for Outputs Version 4 8 The I O specific data point names are preceded with the L IOB bus number L IOB station ID and I O terminal name e g 11 1 DO4 Output Write e Feedback the feedback data point will always be set to the current physical value of the output If e g the L IOB host application writes value A to the output data point but the output is in manual mode and the user
155. le for analog outputs in digital mode They specify the physical values voltages to be output for the OFF inactive and ON active state 9 3 28 PWMPeriod The PWM period property specifies the period in seconds for outputs with Interpretation PWM Pulse Width Modulation see Section 9 3 4 9 3 29 NominalPower The nominal power property is available for all outputs It specifies the nominal resp average expected power consumption of the device or appliance e g lamp connected to the output For digital outputs it specifies the average power when the output is activated e g relay closed for analog outputs it specifies the average power when the output is set to 10 V The nominal power property is used to calculate the energy count data point of the output 9 4 Switch Mode LONMARK Mode This chapter only applies to LIOB 15x 45x models in LONMARK or Non ECS device mode The switch mode is available for all inputs as an interpretation option see Section 9 3 4 It implements a configurable switch function with an optional secondary input and an additional feedback input network variable nvilnSwitchFb of type SNVT_switch available for each input An input in switch mode basically acts as a digital input with some additional functions described in the following sections 9 4 1 General Function Whenever the state of an input in switch mode changes a connected button or switch is pressed released or switched
156. lection mode turn the jog dial to alter the value and press again to quit the selection The I O menu is described in Sections 5 2 5 3 and 5 5 The Datapoints menu allows browsing through the data points on the device The Device Settings menu allows configuring basic device settings Navigate e g to the Device Management sub menu which is displayed in Figure 31 Device Management C DF nfi Factory defaults Figure 31 Device Management Menu on the LIOB 55x LCD in BACnet device mode This menu gives you e g the following options for basic device configuration e TCP IP Setup IP Configuration page IP Address etc Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 47 LOYTEC e Send ID messages send out an I Am message e Reboot system By choosing this item the device performs a full reboot e Clear DP config By choosing this item the user can clear the device s entire data point configuration e Factory Defaults By choosing this item the user can reset the entire device to its factory default e PIN Alter the default PIN to any 4 digit number to protect certain operations on the LCD UI The user will be prompted to enter the PIN on protected areas e Contrast changes the display contrast e Language changes the LCD language Observe that this requires a device reboot e Reset I O counters resets all I O counters like pulse count values e LIOB IP Device Mode the LIOB 55x de
157. lowing properties are changed from the default values in this example e DataType Switch SNVT switch members value state e MinValue 10 1 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 90 LOYTEC e MaxValue 100 1 e MinSendTime 0 25 e HoldTime 15 e EventGroup1ShortReleaseMode Set State if Feedback State is 0 e EventGroup1ShortReleaseValue 0 1 e EventGroupILongPushMode Increment e EventGroup1LongPushValue 1 1 e EventGroup2ShortReleaseMode Set if Feedback State is 1 e EventGroup2ShortReleaseValue 0 0 e EventGroup2LongPushMode Decrement e EventGroup2LongPushValue 1 1 When the input is activated shortly button is pressed shortly and the feedback state member is 0 the last feedback value member when the state member was gt 0 is sent out along with the state member 1 light is switched on Using the Set State mode ensures that the last dimming value is restored When the input is activated shortly button is pressed shortly and the feedback state member is 1 0 0 is sent out light is switched off If the input is activated for longer than 1s HoldTime the light is switched on and the value member is incremented or decremented by 1 each 0 2s MinSendTime Using the MinValue property it is made sure that the light level never goes below 10 as long as it is switched on Observe that for this example a turnaround network variable binding from the live value n
158. ltiplicator Frequency Table z 10 OffsUS Physical Unit Count SI to US unit offset 11 v OverrideValue A ay E 0 10 Override value override operating mode lse Cout 12 ivi DefaultValue Occupancy 0 10 Default value after power on if not persistent or LIOB not responding 13 Vi Offset Card Data inf inf Offset added to the input signal Version 4 8 Figure 4 Change L IOB parameters for the selected I O s 4 On the Datapoints tab the L IOB data points have been created These data points be used e g in the logiCAD IEC61131 program For physical inputs the data point Lx y zzz Input Read will be used to read the input value and for physical outputs the data point Lx y zzz Output Write will be used to set the output value 5 After downloading the configuration into the L INX device the L IOB inputs and outputs can be checked with the L INX Web UI An example is shown in Figure 5 LOYTEC electronics GmbH LIOB 10x x5x User Manual 17 LOYTEC LINX 120 Logged in as LIOB FT LIOBE IP admin 2012 12 13 21 39 33 D Reload ResetAll Count Values c VO Name Term Type Value Mode Status Device Info U LIOB1 Online _ Reload Reset Count Values a Ul Custom NTC Un IN Analog Digital 10V 25 30 C Auto OK Config Ul PT1000 ul2 IN Analog Digital 10V 1 12 C Auto OK Statistics Ul NTC10K
159. mA A value smaller than 3 5 mA is detected as a disconnected sensor No external shunt is required This setting is only available on some universal inputs which have an internal shunt see Section 16 4 Observe that changing the signal type to this setting may result in changing the setting on other universal inputs too In this case a Configurator message will inform the user of the changes 9 3 4 Interpretation Version 4 8 The interpretation property is available for all I Os Depending on the hardware type and signal type the following interpretations can be configured e CustomNTC This interpretation is only available for universal inputs hardware type IN Analog Digital 10V with signal type Resistance It is used for connecting a custom NTC temperature sensor to the input The parameters of the NTC can be setup as described in Section 9 3 24 LOYTEC electronics GmbH LIOB 10x x5x User Manual 79 LOYTEC Version 4 8 PT1000 This interpretation is only available for universal inputs hardware type IN Analog Digital 10V with signal type Resistance It is used for connecting a PT1000 temperature sensor to the input NTC10K This interpretation is only available for universal inputs hardware type IN Analog Digital 10V with signal type Resistance It is used for connecting NTCIOK temperature sensor to the input NTCIKS This interpretation is only available for universal inputs hardware type
160. mainname are optional entries and can be left empty For some DHCP configurations it may be necessary to enter a hostname Please contact your system administrator on how to configure DHCP to acquire an IP address Further you can configure up to 3 Domain Name Servers The device comes configured with a unique MAC address This address can be changed in order to clone the MAC address of another device Please contact your system administrator to avoid MAC address conflicts The device can be configured to synchronize its clock with NTP time Enter the IP address of a primary and optionally a secondary NTP server The device will use NTP as a time source if the time sync source in the system configuration page is set to NTP see Section 6 2 1 The field NTP status below the NTP server settings displays the current NTP synchronization status out of sync or in sync If the device is operated with a 10 Mbit s only hub the link speed should be switched from Auto Detect to 10M bps Half Duplex With modern 100 10 Mbit s switches this setting can be left at its default Other standard protocols that are bound to the Ethernet interface are FTP Telnet and HTTP Web server By deselecting the checkbox those protocols can be individually disabled The standard UDP TCP ports can be changed in the respective protocol settings An example for the FTP server is shown for FTP in Figure 39 The FTP server is used for instance to update the firmware Note
161. mmon terminals of digital outputs for doc umentation and display in the L IOB LCD only They are configured via the L INX Configurator Software 9 7 4 Input Output Group Mapping The different LIOB 15x and LIOB 45x Models contain different amounts of input and output functional blocks The following tables show the mapping between the functional blocks and the terminal names as printed on the L IOB enclosure as well as the mapping to the digital group NVs Version 4 8 Terminal Name Functional Block Digital Group NV mapping LIOB 150 LIOB 450 Ul nvoGroupInVal bit UD nvoGroupInVal bit1 UI3 nvoGroupInVal bit2 UI4 nvoGroupInVal bit3 UI5 nvoGroupInVal bit4 UI6 nvoGroupInVal bit5 017 nvoGroupInVal bit6 UI8 nvoGroupInVal bit7 nvoGroupInVal bit8 DI2 nvoGroupInVal bit9 AOI nviGroupOutVal bit0 nvoGroupOutValFb bit0 nviGroupOutVal bitl nvoGroupOutValFb bitl DO2 nviGroupOutVal bit2 nvoGroupOutValFb bit2 DO3 Output 3 nviGroupOutVal bit3 nvoGroupOutValFb bit3 LOYTEC electronics GmbH LIOB 10x x5x User Manual Version 4 8 Terminal Name DO4 DOS DO6 DO7 DO9 100 LIOB 150 LIOB 450 Functional Block Output 4 Output 5 Output 6 Output 7 Output 8 Output 9 Digital Group NV mapping LOYTEC nviGroupOutVal bit4 nvoGroupOutValFb bit4 nviGroupOutVal bit5 nvoGroupOutValFb bit5 nviGroupOutVal bit6 nvoGroupOutValFb bit6 nviGroupOutVal bit7 nvoGroupOut
162. mode LIOB 10x models the LIOB FT device mode LIOB 15x models and the LIOB IP device mode LIOB 45x 55x models Whenever the L IOB devices act as independent nodes on a CEA 709 network without the need for a L IOB host the L IOB device mode is abbreviated as LONMARK Mode This covers the LONMARK and non ECS device modes LIOB 15x 45x models Whenever the L IOB devices act as independent nodes on a BACnet network without the need for a L IOB host the L IOB device mode is abbreviated as BACnet Mode These three abbreviations L INX Mode LONMARK Mode and BACnet Mode will be used throughout this entire document especially in headings to point out that the following section only applies to this mode Refer to Section 4 1 for more information about the different L IOB device modes and Section 5 4 for information on how to setup the device mode in LIOB 15x 45x 55x models Initial configuration of the L IOB modules is accomplished through the L INX Configurator software The parameterization of I Os self test manual modes override values etc can also be operated on the L IOB s LCD display the Web UI of a connected L IOB host or the LWEB 821 900 Master Parameter Editor tool This document covers LIOB 10x LIOB 15x LIOB 45x and LIOB 55x modules with firmware version 4 8 or higher the L INX automation server firmware version 4 8 or higher and the L INX Configurator version 4 8 or higher LOYTEC
163. modes A condition is not needed here since the event groups are explicitly mapped to the two inputs Additionally the properties of the second input are configured to setup the operation for pressing both buttons at the same time resp within the DebounceTime of 0 1s If both buttons are pressed shortly the light is fully switched on to 100 If both buttons are pressed for longer than 3s HoldTime of second input the state member is set to 1 which could be used to release control of the light Observe that for this example a turnaround network variable binding from the live value nvoInValue to the feedback nvilnSwitchFb of the input object must still be created to be sure the dimming value is restored correctly 9 4 3 6 Two Button Sunblinds This example is implemented in the following I O object template files Version 4 8 UI two button sunblinds l xml UI two button sunblinds 2 xml universal inputs DI two button sunblinds l xml DI two button sunblinds 2 xml digital inputs This example uses two inputs in a 2 Switch Group For the first input the following properties are changed from the default values in this example DataType Setting setting members function setting rotation IOFunc 2 Switch Group GroupNumber X must be the same as for second input SubGroupNumber Switch 1 HoldTime 3s DebounceTime 0 1s EventGroup1ShortPushMode Set EventGroup1ShortPushValue SET_UP
164. n and operating modes When an I O is selected the middle part of the main page shows the I O name current value terminal name and terminal number To the right the device configuration icon toothed wheel icon see Section 5 4 and the device state icon is shown When the device configuration icon is selected the middle of the main page shows the device name device state offline online etc and station ID The device state icon shows an exclamation mark if at least one I O shows an exclamation mark Otherwise it shows the checked icon to indicate that all I Os are operating correctly For LIOB 55x Models in BACnet device mode the toothed wheel icon is replaced by an exit icon which is used to exit the I O overview page By turning the jog dial the user can cycle through all I Os resp to the device configuration icon see Section 5 4 This can be used to get a quick overview of all I O states as well as the device state Observe that the common terminal icons COM only show the name and information of that terminal No further configuration is possible for common terminals 5 3 Manual Quick Edit Mode If the jog dial is pushed shortly on an I O in manual mode M the quick edit mode is entered which allows changing the I O value by turning the jog dial By pushing the jog dial shortly again the quick edit mode is left When pushing the jog dial shortly on an I O in auto mode normal mode without special letter one can quickl
165. ne between different L IOB devices 10 2 3 Manage L IOB Configurations L IOB configurations can be managed by the user One may duplicate the device for repeated use in the project Also a new template may be generated from the L IOB configuration which can be re used in other projects Version 4 8 To Manage L IOB Configurations 1 2 Select the LIOB LIOB FT or LIOB IP folder in the LIOB Configuration tree In the LIOB Devices list select a configured L IOB device or use multi select to select multiple devices at a time Click on the Duplicate Device s button This duplicates the selected L IOB devices and all I O configurations Unneeded devices may be deleted again by clicking the Delete Device s button LOYTEC electronics GmbH LIOB 10x x5x User Manual 115 LOYTEC Version 4 8 To export a new template for a L IOB configuration click the Export Template button No multi select is possible for this operation In the file save dialog enter a new L IOB template file name and store it This file can then be used in a different project using the Add Device s button Existing configurations can be updated with new L IOB templates by using the Upgrade Template button This can be used e g to migrate new functions which were not yet available in earlier template versions It is highly recommended to backup the original L IOB host project before upgrading templates After upgrading the template a log is displayed which
166. nected to the L IOB host each additional local group of up to four L IOB devices requires a separate power supply e g LPOW 24154A In case of LIOB Connect each group additionally requires two LIOB A2 adapters and an extension cable between the two adapters 16 4 Specification for LIOB 10x Models Dimensions mm 107 x 100 x 75 Lx Wx H Operating Temperature ambient 0 to 50 C Storage Temperature 10 C to 85 C Humidity non condensing operating storage 10 to 90 RH 50 C Environmental Protection TP 40 enclosure IP 20 screw terminals Power Supply 24 VDC 10 powered over LIOB Connect Installation DIN rail mounting EN 50 022 attachable or connected with a 4 wire cable max 50 m Interface 1 x LIOB Connect Types LIOB 100 LIOB 101 LIOB 102 LIOB 103 Power Consumption W 1 7 2 6 all Relays on 1 7 1 7 2 7 1 7 2 5 Universal Input UD 8 8 6 6 Digital Input DI 2 16 Analog Output AO 2 6 6 Digital Output DO 9 5 x Relay 4 x Triac 8 8 x Relay 5 5 x Relay Digital output specification Relay 6 A Relay 6 A Relay 16 A Triac 1 A 24 230 VAC Internal shunt available for current UI5 amp UI6 UI5 amp UI6 UB amp UI4 UB amp UM measurement UI7 amp UI8 017 amp UIS UIS amp UI6 UI5 amp 016 Supported STId card readers 3 2 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User
167. net Mode For replacing a LIOB 55x device use the restore function of the Configurator or L WEB tool with a recent backup of the original L IOB device Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 46 LOYTEC 5 L IOB LCD Display The L IOB device is equipped with an LCD display and jog dial for monitoring testing and configuration purposes The LCD backlight is automatically switched off after 30 minutes of idle time no jog dial or status button activity 5 1 Main Page of LIOB 55x in BACnet Mode The LCD main page of the LIOB 55x I O modules in BACnet device mode is shown in Figure 30 It is different from the other I O modules since it is derived from the main page of the LIOB 58x I O controller see 2 Observe that when in LIOB IP device mode the LIOB 55x has the same LCD UI as the LIOB 45x LOYTEC LIOB 558 amed Project 58 12 155 Device Settings gt gt gt Figure 30 Main Screen of the LIOB 55x LCD in BACnet device mode The main page displays the device s name CPU load system temperature supply voltage IP address and Ethernet status In the row where the CPU load is displayed there is a language symbol on the right side where the LCD language can be chosen Observe that changing the language requires a system reboot In the bottom part of the main page there are some menu items Turn the jog dial to navigate between menu items and press to enter a menu or go into selection mode When in se
168. ns Global Connections Connection Overview Statistics LogiCAD Files JOB L WEB Projects Web Interface UOB FT Add Devices Devices Lamport Terminal Config Export Terminal Config 755 Table Horizontal Vertical Split Station Product Code Minimum firmware version Enabled Allowupgr PIN Figure 67 L IOB tab in the Configurator In the LIOB Configuration tree on the left select the LIOB LIOB Connect LIOB FT or LIOB IP bus Click the Add Device s button In the file requestor select a LIOB device template for your L IOB model e g liob100 xml The L IOB device appears in the LIOB Devices list LIOB Devices Station Product Code Device name Daisy Chain Minimum firmware version Enabled Allow upgr PIN 1 UOB 100 LOB 100 iv 21 i 00 00 00 00 00 00 Optionally double click on the Device name and enter a descriptive device name e g MyLIOB Station Product Code Device name 1 LIOB 100 MyLIOB To add more L IOB devices repeat the add device step Use the Up and Down button to organize the L IOB devices in the order as they are connected to the L IOB host Station 1 1s the first L IOB station 2 the second and so on In the device parameters table below the LIOB device table check the Param check box if this configuration property shall be exposed to the LWEB 821 900 Master Parameter Editor Devic
169. ns in Section 16 1 Added Export Terminal Config function in Section 10 2 3 Added Chapter 15 Security Hardening Guide 2012 12 14 gt gt ive Updated contact information in Section 13 1 Added Section 16 2 Internal Translation Tables Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 152 LOYTEC Added LIOB 55x BACnet IP models Added LIOB 48x 58x devices as L IOB hosts on LIOB IP bus Added Section 8 6 L IOB I O Test Page Added Section 16 3 Maximum Number of L IOB Devices per L IOB Host Some updates and corrections of specifications in Chapter 16 Added applications notes for connecting I Os in Chapter 14 Version 4 8 LOYTEC electronics GmbH
170. nstallation 6 No device present networks under control 7 No LIOB device present 8 No LIOB device present Save Settings Get Settings Figure 56 LIOB FT IP Device Installation and Scan Since the LIOB FT IP bus does not have a mechanism to automatically enumerate connected L IOB devices the user must determine the order manually This is done either by setting the Station IDs in the LCD UI of the L IOB devices see Section 5 4 or by entering the Node IDs of the connected L IOBs as shown in Figure 56 and clicking Save Settings By clicking Scan the order as currently configured in the L IOB devices will be detected and displayed The Node IDs can also be setup by clicking Get Node ID and then pressing the status button see Section 3 6 3 of the corresponding L IOB device Whenever changes have been made in the Web UI in the end the Save Settings button must be clicked to configure the connected L IOB devices accordingly Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 72 LOYTEC 8 4 L IOB Device Information and Statistics By clicking on one of the L IOB device links in the Name column of the LIOB Installation page the L IOB device information and statistics page can be shown for that device see Figure 57 The Device information part shows device specific configuration properties see Section 9 2 and some live values of the device CPU load System temperature amp voltage The system log of t
171. nvoGroupOutValFb bit9 DO7 Output 10 nviGroupOutVal bit10 nvoGroupOutValFb bit10 Table 9 LIOB 154 Object Mapping 9 7 5 Input Object UFPTopenLoopSensor Key 1 The functional block type for inputs is derived from the Standard Functional Profile Template SFPTopenLoopSensor FPT Key 1 and was extended to the Template UFPTopenLoopSensor The functional profile is depicted in Figure 65 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 103 LOYTEC Open Loop Sensor 1 nvilnManual nvolnValue lt changeable gt lt changeable gt 1 nvilnSwitchFb nvolnManual SNVT switch lt changeable gt nvolnPulse Time SNVT_time_f nvolnLink UNVT io link SCPTobjMajVer SCPTobjMinVer SCPTmaxNVLength UCPTioHwType UCPTioHwFlags SCPTnvType UCPTioDataType UCPTioDispInfo UCPTioName UCPTioOpmode SCPTovrBehave SCPTovrValue SCPTdefOutput SCPTminSendTime SCPTmaxSendTime SCPTsndDelta UCPTioSigInterpr UCPTioSigType SCPToffset SCPTminRnge SCPTmaxRnge UCPTioFlags UCPTtrnsTblldx UCPTntcParams SCPTholdTime SCPTdebounce UCPToffHystRaw UCPTonHystRaw UCPTpulseCntlnit UCPTioFunc UCPTegXyzVal UCPTegXyzMode UCPTinputExt Figure 65 Input Object Open Loop Sensor 9 7 5 1 Input Network Variables nvilnManual changeable If this NV is written the value of the input in manual mode is set The type of the NV is determined by the SCPTnvType CP see Section 9 7 5 4 nvilnSwitchFb SNVT_switch
172. o the DIs Digital Inputs or to the UIs Universal Inputs in digital interpretation Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 135 LOYTEC 14 2 1 1 Switch connected to a DI A switch can be directly connected to a digital input as shown in Figure 80 Digital Input Figure 80 Switch connected to DI The digital inputs DI recognize the following digital signals according to the connected resistance switch Resistance of Switch Status lt 6 8 Closed Switch gt 10 Open Switch 14 2 1 2 Switch connected to a UI A switch can be directly connected to a universal input with signal type resistance as shown in Figure 81 Digital Input Figure 81 Switch connected to UI Uls recognize the following digital signals according to the input resistance switch Resistance Switch Status 1 9 Closed Switch gt 6 7 KQ Open Switch 14 2 2 Connection of SO Pulse Devices Meters SO pulse meters must be connected to digital inputs DI as shown in Figure 82 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 136 LOYTEC SO Pulse Output p d Digital Input Figure 82 SO pulse meter connected to DI 14 2 3 Connection of Voltage Sources to Universal Inputs The Universal Input UI provides voltage measurement both if used as an analog or digital input The signal type must be configured to Voltage 0 10V or
173. o your needs for accessing the device Click on Save to store that connection Click on Connect This establishes the connection to the device 10 4 2 Configure l Os Once a L IOB device project is started the I Os have a default configuration To adapt the I Os to the specific needs in a project they can be freely configured Whenever changes have been made they can be explicitly validated by clicking on Validate Config in the L IOB tab Version 4 8 To Configure I Os 1 Select LIOB LOCAL at the left side of the L IOB tab Ecc NNI The L IOB tab displays the I Os available on that L IOB device in the Inputs Outputs list Inputs Outputs Nr TerminalNr Terminal Name Hardware type IN Analog Digital 10V 2 2 GND12 GND UI1 UI2 3 3 ur un 4 4 uB UB IN Analog Digital 10V IN Analog Digital 10V IN Analog Digital 10V To adapt the I O name double click the name in the Name column and edit it e g RoomTemp Nr 4 TeminalNr Terminal 1 1 utt Hardware type IN Analog Digital 10V Select or multi select an I O in the Inputs Outputs list and observe the Object parameters list below These parameters can be used to configure the I O LOYTEC electronics GmbH LIOB 10x x5x User Manual 126 LOYTEC Object parameters Nr Parameter name Parameter value Unit Range Description 0 Name un Terminal name 1 HardwareType IN Analog Digital 10V Terminal type 2 SignalType Voltage 0 10V x Type o
174. of LIOB 55x models see Section 4 1 2 3 1 Hardware Installation A LIOB 55x I O module in BACnet device mode is connected to a BACnet IP network using the Ethernet IP port of the L IOB device see Chapter 4 The device must be powered e g using an LPOW 2415A power supply Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 19 LOYTEC 2 3 2 BACnet IP Setup Before the device can be used in the BACnet IP network the initial IP and BACnet setup must be done in the LCD UI see Section 5 1 or Web UI see Section 6 2 2 3 3 Configuration Configuration of the L IOB devices is achieved using the L INX Configurator software see the corresponding user manual 1 After startup of the Configurator select the L IOB tab as depicted in Figure 6 Datapoints Local Connections Connection Overview Statistics LIOB Web Interface Figure 7 L IOB Tab To Configure L IOB l Os 1 Version 4 8 Select LIOB LOCAL at the left side of the L IOB tab The I Os available on that L IOB device are displayed in the Inputs Outputs list Inputs Outputs Nr 4 TeminalNr Terminal Name Hardware type MER un un IN Analog Digital 10V 2 IN Analog Digital 10V 4 IN Analog Digital 10V To adapt the I O name double click the name in the Name column and edit it e g RoomTemp Nr 2 TeminalNr Terminal Hardware type un IN Analog Digital 10V Select or multi select an I
175. oftware The description in the following sections provides documentation of the CPs just for the sake of completeness it is not meant to suggest manual CP setup without the Configurator Software 9 7 1 Device Global Configuration Properties The L IOB device has some device global configuration properties not mapped to a functional block Version 4 8 UCPTioDeviceExt structure This CP is reserved for future use UCPTioPinCode unsigned This CP represents the PIN code of the L IOB device see Section 9 2 8 UCPTmsText array of structures This CP is reserved for future use LOYTEC electronics GmbH LIOB 10x x5x User Manual 98 LOYTEC e UCPTtermDescr array of structures This CP contains the names and numbers of all terminals e UCPTtransTbl array of structures This CP contains the translation tables of the L IOB device see Section 9 2 13 9 7 2 Node Object UFPTnodeObject Key 0 The L IOB device provides a node object conforming to the LONMARK guidelines The functional block type for the node object is derived from the Standard Functional Profile Template SFPTnodeObject Key 0 and was extended to the Template UFPTnodeObject The essential NVs and CPs of the functional profile are depicted in Figure 64 d ON Node Object 0 nviRequest nvoStatus SNVT obj request SNVT obj status nviTimeSet nvoSystemTemp SNVT time stamp SNVT temp I nviGroupOutVal nvoSupplyVolt SNVT state 64
176. ogout item closes the current session Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 66 LOYTEC 7 L IOB Host LCD Display L INX Mode This chapter only applies to LIOB 10x models LIOB 15x models in LIOB FT device mode and LIOB 45x 55x models in LIOB IP device mode The L IOB host L INX or LIOB 48x 58x provides an LCD interface to configure operate and test the connected L IOB devices Refer to the L INX user manual 1 for general information on the L INX LCD interface Refer to the LIOB x8x user manual 2 for general information on the LIOB 48x 58x LCD interface 7 1 Scan and Configuration Run Even without any configuration the L IOB bus can be scanned to check which L IOB devices are connected to the L IOB host In the menu Device Settings LIOB LIOB FT or LIOB IP select the item Scan LIOB bus to scan for attached L IOB devices During the scan process the status of the currently configured L IOB device is shown in the LCD At the end the LCD will show all detected L IOB devices and their status resp error state By pushing the jog dial on a certain L IOB device some configuration properties of the device are displayed Refer to Section 9 2 for information on these properties If a configuration is downloaded to the L IOB host using the Configurator software see Chapter 10 a configuration run is started automatically and if the configuration matches the physically attached L IO
177. omment Jf Sign rung Deer e x Export PDF G HTML 2 m Settings Projekt E LIOB 100 un uz us ue uia DH Di2 AO AO2 Export HTML re Pee Motora Mater eura Switch2 Lampt Lamg2 LIOB CSV 5 5 5 Settings 2 e i ond roy 1 d 1 Export CSV LIOB Labels A E i E i 8 9 amp 26x1 69m 4 Tui m D 1of1 Version 4 8 4 5 Figure 71 Print View Click on Export to generate a PDF file of the labels Click on Open to open the file in a separate PDF reader window Click on Save to save the PDF file LOYTEC electronics GmbH LIOB 10x x5x User Manual 119 LOYTEC 6 Print the labels directly from the PDF reader embedded in the print view or from the opened saved PDF file 10 3 Configuring L IOB Modules LONMARK Non ECS device mode This section only applies to LIOB 15x 45x models in LONMARK or Non ECS device mode Please refer to Section 4 1 for more information on L IOB device modes 10 3 1 Connecting to a L IOB Module 10 3 1 1 Connection via LNS When an LNS based network management tool is used the L IOB device must first be commissioned in the tool e g NL 220 or LonMaker Make sure to register the L INX Configurator Software as a plug in in the network management tool beforehand The registration must be renewed if an older vers
178. on 9 3 13 and the pulse time flag Section 9 3 14 UCPTtrnsTblildx specifies the index of the translation table see Section 9 3 23 UCPTntcParams specifies the custom NTC parameters see Section 9 3 24 SCPTholdTime specifies the hold time see Section 9 3 25 SCPTdebounce specifies the debounce time see Section 9 3 25 UCPToffHystRaw reserved for future use UCPTonHystRaw reserved for future use UCPTpulseCntInit initializes the pulse count for interpretation physical unit count and pulse count The UCPT DEVICE FLAGS SET ACC flag must be set in order to perform this operation see Section 9 7 2 UCPTioFunc specifies the I O function group number and sub group number see Section 9 3 9 LOYTEC electronics GmbH LIOB 10x x5x User Manual 9 7 6 Output Object UFPTclosedLoopActuator Key 4 The functional block type for outputs is derived from the Standard Functional Profile Template SFPTclosedLoopActuator Key 4 and was extended to the Template UFPTclosedLoopActuator The functional profile is depicted in Figure 66 Version 4 8 105 UCPTinputExt reserved for future use Closed Loop Actuator 4 D nviOutValue nvoOutValueFb lt changeable gt lt changeable gt I I nviOutManual nvoOutManual lt changeable gt lt changeable gt I nvoOutLink UNVT io link I nvoOutRunHours SNVT elapsed tm I nvoOutEnergy SNVT elec kwh nvoOutEnergyF SNVT_elec_whr_f
179. online check the status of the L IOB devices in the L IOB host Web UI Chapter 8 or L IOB host LCD UI Chapter 7 12 2 L IOB Device Replacement LONMARK Mode LIOB 15x 45x devices in LONMARK or Non ECS device mode can simply be replaced using the replace method of the used network management tool Alternatively a backup of the old device can be created and restored into the new device using the LOYTEC NIC connection see Section 10 3 8 12 3 L IOB Device Replacement BACnet Mode Version 4 8 LIOB 55x devices in BACnet device mode can simply be replaced using the backup restore function This can either be done using the Web UI see Section 6 2 2 or the Configurator Software menu Tools Backup Device Configuration and Tools Restore Device Configuration LOYTEC electronics GmbH LIOB 10x x5x User Manual 133 LOYTEC 13 Troubleshooting 13 1 Technical Support LOYTEC offers free telephone and e mail support for the L IOB product series If none of the above descriptions solves your specific problem please contact us at the following address LOYTEC electronics GmbH Blumengasse 35 A 1170 Vienna Austria Europe e mail support loytec com Web http www loytec com tel 43 1 4020805 100 fax 43 1 4020805 99 Or LOYTEC Americas Inc N27 W23957 Paul Road Suite 103 Pewaukee WI 53072 USA e mail support loytec americas com Web http www loytec americas com tel 1 512 402 5319 fax
180. opology 39 3 3 6 EIOB IP COBDGCLUOH eio roter or np e e n e Rs 39 3 5 7 CEA 852 Network Connection esee 40 3 5 8 BACnet IP Network Connection esee 40 CED signals RUN 40 3 6 1 Status LED L INX Mode eesse i sorea e i eSa 40 3 6 2 Status LED LONMARK Mode 41 3 6 3 Status LED BACnet Mode sse nennen 41 Status Button 42 4 Device Modes and Installation eee e ee ee eee eee eese sese sese eese eeeeees 43 4 1 42 4 3 Device Mod s 43 4 1 1 LIOB Connect Device Mode LIOB 10X sees 43 4 1 2 LIOB FT Device Mode LIOB 15x sese 43 4 1 3 LIOB IP Device Mode LIOB 45x 55x eene 43 4 1 4 LONMARKO Device Mode 11 15 45 43 4 1 5 Non ECS Device Mode 11 15 45 43 4 1 6 BACnet Device Mode LIOB 55x 1 eere 44 Device Installation aeree eee esee entente an tasa tata 44 4 2 1 Device Installation LIOB Connect device mode 44 4 2 2 Device Installation LIOB FT IP device mode 44 4 2 3 Device Installation LONMARK Non ECS device mode 45 4 2 4 Device Installation BACnet
181. ore Configuration section of the page by clicking the button next to the Filename field Then press the Restore button The backed up configuration data consists of e Device settings Passwords IP settings e mail config etc Version 4 8 LOYTEC electronics GmbH Version 4 8 LIOB 10x x5x User Manual 56 e Data point configuration e CEA 700 binding information e BACnet server objects and client mappings e configuration and parameters e AST settings LOYTEC LIOB 450 Logged in as admin 2012 07 05 11 49 09 Device Info Statistics Reset networks under control Contact Logout 6 2 3 Port Configuration Backup Configuration LOYTEC Press the backup link to download the current configuration and store it as a file on your computer Restore Configuration To restore a configuration select the backup file e g backup zip and press the Restore button Filename Restore Figure 37 Backup Restore page This menu allows configuring the device s communications ports For the Ethernet communication port a configuration tab is provided by the Web UI as shown in Figure 38 It contains a selection of available communication protocols By selecting a checkbox or radio button the various protocols can be enabled or disabled on the communication port 2012 07 05 12 18 28 Device Info Config m Port Con ig Statistics Reset Contact Logout Ethernet T
182. ost is not needed in this case 3 6 LED signals The L IOB device is equipped with a three color status LED see Figure 10 which indicates the current state of the L IOB device 3 6 1 Status LED L INX Mode The meaning of the LED signals for the LIOB 10x models the LIOB 15x models in LIOB FT device mode and the LIOB 45x 55x models in LIOB IP device mode is listed in Table 1 Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual Behavior OFF GREEN ORANGE RED Flickering RED flashing at 0 5 Hz 41 Description Unconfigured Offline Normal Operation Manual Mode Error Traffic Fallback Override LOYTEC Comment The L IOB device is either not connected to a L IOB host or not yet set online The L IOB device is connected to a L IOB host and online No I O is in manual mode At least one I O is in manual mode An error has occurred e g a sensor is disconnected or signals an error Indicates traffic between the L IOB host and the L IOB device The primary firmware image is corrupt and the L IOB has booted the fallback image In this case the firmware must be upgraded again Table 1 Status LED Patterns in LIOB Connect LIOB FT LIOB IP device mode 3 6 2 Status LED LONMARK Mode The meaning of the LED signals for the LIOB 15x 45x models in LONMARK or Non ECS device mode is listed in Table 2 Behavior OFF Flickering ORANGE RED GREEN fla
183. ouplLongReleaseMode Set e EventGrouplLongReleaseValue 0 0 When the input is activated switched on 100 1 is sent out When the input is deactivated switched off 0 0 is sent out Observe that the HoldTime is set to O to prevent the ShortRelease event from occurring 9 4 3 2 One Button Toggle This example is implemented in the following I O object template files UI one button toggle xml universal input e DI one button toggle xml digital input The following properties are changed from the default values in this example e DataType Switch SNVT switch members value state e EventGroup1ShortPushMode Set if Feedback State is 0 e EventGroup1ShortPushValue 100 1 e EventGroup2ShortPushMode Set if Feedback State is 1 e EventGroup2ShortPushValue 20 0 When the input is activated button is pressed and the feedback state member is 0 100 1 is sent out If the feedback state member is 1 0 0 is sent out It does not matter in which event group the input is currently in since the conditional modes always make sure that the live value toggles Observe that for this example a turnaround network variable binding from the live value nvoInValue to the feedback nviInSwitchFb of the input object must be created 9 4 3 3 One Button Dimming This example is implemented in the following I O object template files UI one button dimming xml universal input DI one button dimming xml digital input The fol
184. out of the LIOB 150 is shown in Figure 14 DO3 COM D 24V FT DO2 DO4 COM O6 DO7 DOOD 19202122 232425262728 293031323334 POWER DIGITAL OUT LIOB FT STATUS RESET STATUS LED DISPLAY DIAL DIGITAL IN UNIVERSAL IN 0 10 V OUT 1234567285 101112131415 16 17 18 Buttons STATUS Status Button RESET Reset Button GND GND GND DIAL Turn and Push Dial Mp s MEN DIt pte Connectors Connectors UNIVERSAL 1 Input POWER 19 Input 24 V PLUS or AC INPUT 2 Input GND SUPPLY _ 20 Input 24 V MINUS or AC 3 Input UI2 TP FT 10 21 LIOB FT Input A 4 Input UI3 CEA 709 22 LIOB FT Input B 5 Input GND DIGITAL 23 Output DO2 6 Input Ul4 OUTPUT 24 Output DO3 7 Input UI5 RELAY 25 Output DO4 8 Input GND 6A 26 Output DO5 9 Input UI6 27 Output Common for DO2 to DO5 10 Input UI7 28 Output Common for DO2 to DO5 11 Input GND DIGITAL 29 Output DOG 12 Input UI8 OUTPUT 30 Output Common for amp DO7 DIGITAL 13 Input DI1 TRIAC 31 Output DO7 INPUT 14 Input GND 1A 32 Output DO8 15 Input DI2 33 Output Common for DO8 amp DO9 ANALOG 16 Output AO1 34 Output DO9 OUTPUT 17 Output GND 0 10 V 18 Output AO2 Figure 14 LIOB 150 terminal layout Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 3 4 6 LIOB 151 LOYTEC The LIOB 1
185. own SET STATE except if it is pressed shortly again If both buttons are pressed at the same time resp within the DebounceTime of 0 1s control of the sunblinds is released SET NUL 9 5 STId Card Reader Mode The L IOB devices support STId card readers running the ISO2 protocol Refer to Section 16 4 and the following sections for information on which L IOB models support STId card readers The card readers have three signals which must be connected to inputs on the L IOB device as explained in the following sections 9 5 1 Code Signal The code signal of the card reader must be connected to a universal or digital input of the L IOB device The following properties must be set for that input e SignalType if universal input Voltage 0 10V e Interpretation Pulse Count e OFunc Cardreader ISO2 e GroupNumber must be equal for all three signals of one card reader e SubGroupNumber will automatically be set to Code e Invert checked if signal is low active check data sheet of card reader In its live value this L IOB input will represent the number of codes read from the card reader 9 5 2 Data Signal Version 4 8 The data signal of the card reader must be connected to a universal or digital input of the L IOB device The following properties must be set for that input e SignalType if universal input Voltage 0 10V e Interpretation Card Data e IOFunc will automatically be
186. page is available for all L IOB devices connected to the L IOB host as well as the local I Os of the host LIOB 48x 58x Figure 60 shows the L IOB I O test page of a connected L IOB device LOYTEC Clear All Tests Export All CSV LIOB LIOB FT LIOB IP Reload O U 1 0 Name Terminal Test Result Test Date Test Comment LOB Offline Reload Export Device CSV ClearTests UI Custom NTC un Not Tested 2012 12 13 22 43 15 No sensor available yet UI PT1000 ul2 Not Tested 2012 12 13 22 43 19 No sensor available yet u UI NTC10K 2012 12 13 22 43 22 Was tested with actual sensor E UI NTC1K8 2012 12 13 22 43 26 Was tested with actual sensor gt UI 1000 U5 OK 2012 12 13 22 43 28 Was tested with actual sensor 2 D Ul_Linear Not Tested 2012 12 13 22 43 31 No sensor available yet m I O Test c Ul Frequency 2012 12 13 22 43 35 Sensor defect Version 4 8 Figure 60 L IOB I O Test For each I O a Test Result Not Tested OK NOT OK can be chosen The Test Date will then be set automatically but can be manually changed afterwards An additional Test Comment can be entered This data will be stored persistently in the L IOB host until it is explicitly cleared or the type of the connected L IOB device changes because of a new host configuration To explicitly clear the test information the buttons Clear Tests or Clear LOYTEC electronics GmbH LIOB 10x x5x
187. puts are available e Relay 6A Output Switching capacity 6 A 250 VAC resp 30 VDC e Relay 16A Output Switching capacity 16 A 250 VAC resp 30 VDC e TRIAC Output Switching capacity 1 A 24 to 230 VAC When connecting an air gap switch to a L IOB relay a quenching circuit like a varistor or RC element must be used 16 1 5 PRESS Pressure Sensor These inputs represent differential pressure sensors which measure pressures from 0 500 Pascal They are equipped with two 3 16 4 8 mm hose connectors 16 2 Internal Translation Tables The L IOB devices offer fixed internal translation tables for easy configuration of some temperature sensors The xin xout values of these tables are listed in Table 11 xout Temp xin Resistance 90 920 240 1549 100 680 187 1618 120 1460 6 390 118 1760 Table 11 Internal translation table values 16 3 Maximum Number of L IOB Devices per L IOB Host Table 12 specifies the maximum number of L IOB devices per L IOB bus as well as the maximum total number of L IOB devices per L IOB host Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual L IOB Host LINX 10x 11x 20x 21x LINX 12x 22x 15x LIOB 48x 58x L IOB Devices on LIOB Connect Bus 146 L IOB Devices on LIOB FT Bus LOYTEC L IOB Devices on L IOB Devices LIOB IP Bus Total Table 12 L IOB devices per L IOB Host After the first four L IOB devices which can be directly con
188. r Card Reader Mode 81 9 3 11 OperatingMode OverrideValue and DefaultValue 81 93 12 Persistent Elag i 5 nter Rte re eee ar tn 82 9 3 3 Invert Flag ceo ue OE UI UR 82 9 3 14 Pulse Tame Flag 3o Ett qr tete ete oe 82 9 3 15 SIUnit OnText and USUnit OffText ssssss 82 93 16 Reso lUt Oeean ereenn rene eie die deus 83 9 3 17 MultUS and OSU Siran cette e 83 9 3 18 DisplayOnSymbol and DisplayOffS ymbol eee 83 9 3 19 0ffset s aT ERREUR 83 9 3 20 MinValue and MaxValue sese eene 83 9 3 21 COV and MaxSendTime si mns eiee ias oiei 83 9 322 Man Send Time a eec tt e rem E R i e te eee 84 9 323 Trans Table 38 he Shetek eR eben 84 93 24 NTC Rn NTC Tn and NTC B eren 84 9 3 25 HoldTime and DebounceTime eere 84 9 3 26 EventGroup Modes and Values eese 85 9 3 27 OffValue and OnValue sess 85 93 28 PWMBerOd nei Hr tritt e ea ns 85 9 3 29 NomimalPOoWet eo ORI E OSE REISES 85 Switch Mode LONMARK MoO de cssssccscssssscssssccscssscccsssssccesssccscssssecess 85 LOYTEC electronics GmbH LIOB 10x x5x User Manual 7 LOYTEC Version 4 8 9 5 9 6 9 7 9 8 9 9 9 1 General Function ii tir ete ee tes 85 9 4 2 Two Input Mode e a nennen rennen rennes 88 9 43 Exampl s dee ERU Oei Up te ees 88 STId Card Re
189. re 24 Figure 24 Using the LIOB A2 adapter to extend the LIOB Connect bus More information about LIOB Connect wiring can be found in Section 3 5 3 5 Power Supply and Wiring Please refer to Section 16 3 on how many L IOB devices can be connected to a L IOB host There are six ways of connecting L IOB devices e LIOB Connect port of a L IOB host LIOB 10x Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 36 LOYTEC e tothe LIOB FT port of a L IOB host LIOB 15x in LIOB FT device mode toa CEA 709 network LIOB 15x in LONMARK or Non ECS device mode e the LIOB IP bus of a L IOB host LIOB 45x 55x in LIOB IP device mode e toa CEA 852 network LIOB 45x in LONMARK or Non ECS device mode toa BACnetIP network LIOB 55x in BACnet device mode The LIOB Connect port of a L IOB host provides a means for connecting LIOB 10x modules including power supply and communication without further cabling needs The gold contacts at the side of the enclosure attach the modules in a daisy chain Up to 24 L IOB devices can be connected to the LIOB Connect port The LIOB devices are physically and logically organized in a daisy chain This means that the L IOB host is able to automatically enumerate the connected I O modules to match the order defined in the Configurator The LIOB FT port of a L IOB host is used to overcome longer distances between the L IOB host and the L IOB I O modules LIOB 15x models in L
190. re 49 CEA 709 Statistics Page 6 3 6 BACnet Bindings Statistics BACnet Mode The BACnet bindings statistics page displays a list of all currently active address bindings This list can be used for troubleshooting to see which BACnet device instance numbers Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 65 LOYTEC could be resolved and to what BACnet network number and MAC address See Figure 50 for an example list In this case the device instance 224095 has been resolved to the local network and MAC address 192 168 24 95 BACO Instance Number Network Number Address 224095 local 192 168 24 95 Port 0xBACO control Figure 50 BACnet bindings statistics page 6 3 7 Scheduler and Alarm Log Statistics BACnet Mode The LIOB 55x I O modules in BACnet Mode support scheduling and alarming similar to the LIOB I O controllers The corresponding Web UI statistics items are named Scheduler and Alarm Log Since the main purpose of LIOB I O modules is to directly expose I Os to the control network CEA 852 or BACnet IP these function will usually not be required For more information on scheduling and alarming please refer to the L INX user manual 1 or LIOB x8x user manual 2 6 4 Reset Contact Logout e The menu item Reset allows rebooting the device from a remote location e The Contact item provides contact information and a link to the latest user manual and the latest firmware version e The L
191. re can be upgraded through the L IOB host if the host is a L INX device For doing so the Configurator needs to be connected to the L IOB host to perform the upgrade of all connected L IOB modules Those L IOB I O modules which have been configured with the Allow upgr check box as disabled will be excluded from the firmware upgrade To Upgrade the L IOB Firmware over the L INX 1 Start the Configurator and connect to the L INX device which hosts the L IOB I O modules 2 Select menu Firmware Update attached LIOB devices for LIOB 10x and LIOB 15x devices or Firmware Update attached LIOB IP devices for LIOB 45x 55x devices 3 This opens the Firmware Update dialog as shown in Figure 70 Click on the 8 button and select the L IOB firmware image Observe that LIOB 45x 55x devices need a different firmware than the other models r gt E3 Firmware Upgrade Se Task List Task Status Select a firmware file and press Start Initialize devices Update device info Verify firmware Download firmware Upgrade LIOB firmware Update device info Sa e Details Control IS d Figure 70 L IOB Firmware Update dialog of the Configurator 4 Click on Start 5 Observe the download progress When the download is complete click Close LOYTEC electronics GmbH LIOB 10x x5x User Manual 118 LOYTEC The L IOB firmware of LIOB 45x
192. resented as network variables NVs and configuration properties CPs The NVs can be polled or bound in a network management tool The CPs be accessed via LONMARK file transfer Refer to Section 9 7 for more information about L IOB NVs and CPs 10 3 7 Upgrade Firmware The L IOB firmware can be upgraded through the Configurator software For doing so the Configurator needs to be connected to the L IOB device To Upgrade the L IOB Firmware 1 Start the Configurator and connect to the device see Section 10 3 1 2 Select menu Firmware Update 3 This opens the Firmware Update dialog which will look similar to Figure 70 Click on the button and select the L IOB firmware image Observe that LIOB 45x 55x devices need a different firmware than the other models 4 Click on Start 5 Observe the download progress When the download is complete click Close 10 3 8 Backup and Restore Version 4 8 A backup of the complete state of a L IOB device including the I O configuration commissioning data binding information L IOB LCD settings etc can be created by using Tools Backup Device Configuration The L IOB device must be connected to the Configurator to perform this operation see Section 10 3 1 The backup will be stored as a ZIP file This file can later be used to restore the old device configuration again It can also be used to physically replace a device and copy the configuration of the old device to the n
193. ressing the status button shortly during normal operation of the device a service pin message LIOB 15x 45x or I Am message LIOB 55x is sent out the LCD is reset and the LCD backlight is switched on The status button can also be used to switch the device back to factory default state Press the button and power cycle the device Keep the button pressed until the Status LED illuminates orange permanently Release the button within five seconds from that time on to reset the device to factory defaults Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 43 LOYTEC 4 Device Modes and Installation After physically installing and connecting the L IOB devices they must be configured to be able to communicate with each other resp with the L IOB host The necessary steps depend on the used device mode The available device modes and resulting installation steps as well as some remarks about device monitoring and replacement are documented in the next sections 4 1 Device Modes There are six different device modes available for L IOB devices which are explained in the following sections For LIOB 15x 45x 55x models the device mode can be changed on the LCD Display see Section 5 4 Observe that the LIOB Connect LIOB FT LIOB IP device modes are abbreviated as L INX Mode the LONMARK Non ECS device modes are abbreviated as LONMARK Mode and the BACnet device mode is abbreviated as BACnet Mode 4 1 1 LI
194. ro eh Oir 123 10 3 9 Printing Labels eterne 124 Configuring L IOB Modules BACnet Mode cere 124 10 4 1 Connecting to a L IOB ModUule see 124 10 42 Configure t tte e ettet dina 125 10 4 3 Manage L IOB Configurations esee 126 10 4 4 Up and Download of Configurations see 126 10 4 5 Using L IOB Data Points essere 127 10 4 6 Upgrade Firmware nen Ure en iren ERR 129 10 4 7 Backup and Restore rennen 129 10 4 8 Prntng Labels en rete ere Non 129 11 L IOB Firmware Update LOO 11 1 11 2 Firmware Update using the Configurator eere eeee reete 130 Firmware Update using the LWEB 822 900 Master Device Manager 130 12 L IOB Device Replacement eee eee eeee eee eee ee ee esee esseeeesseeessseess LOL 12 1 12 2 12 3 L IOB Device Replacement L INX Mode c eeeeeeeeeeeeeeeeenee 131 12 1 1 LIOB Connect Device Replacement with L INX Power Cycle 131 12 1 2 LIOB Connect Device Replacement without L INX Power Cycle 131 12 1 3 LIOB FT IP Device Replacement eese 132 L IOB Device Replacement LONMARK 9 132 L IOB Device Replacement BACnet
195. rsion 4 8 The L IOB I Os are exposed to data points on the L IOB host These data points comprise the present value of the I O as well as status and configuration data When adding a L IOB device to the device configuration a folder appears in the data point manager tab of the Configurator Figure 69 shows an example for a LIOB 100 LOYTEC electronics GmbH LIOB 10x x5x User Manual 117 LOYTEC 5 Los 1559 tems TA Statistics 18 Items 100_1 538 Items UI1 RoomTemp 22 Items 18 UN 22 Items UB 22 Items 8 22 Items UIS 22 Items 18 UI6 22 Items 18 UN 22 Items 8 8 22 Items 3j 011 22 Items Figure 69 L IOB folder in the data point manager Under the L IOB device folder there exist sub folders for each I O on the module When selecting any of the folders the data point list shows all data points in the scope of that folder The data points on the LIOB folder provide data for the entire L IOB bus The data points on the L IOB device folder provide data for the L IOB device The data points of the I O sub folders expose the present value as well as status and configuration data specific to the I O Refer to Section 9 6 for more information on L IOB data points The L IOB data points can be used in the L IOB host configuration just as all other data points To expose an I O directly as a variable to the PLC select the PLC check box 10 2 5 Upgrade Firmware Version 4 8 The L IOB firmwa
196. s UI measure voltage between and 10V The interpretation is Linear with MinValue and MaxValue 10V Network variables of type SNVT volt f are used in LONMARK Mode Digital Inputs DI act as switch inputs The interpretation is Digital Network variables of type SNVT switch are used in LONMARK Mode LOYTEC electronics GmbH LIOB 10x x5x User Manual 111 LOYTEC e Pressure Sensors PRESS measure pressure between OP and 500P Pascal The interpretation is Linear with MinValue and MaxValue 500P Network variables of type SNVT press f are used in LONMARK Mode e Analog Outputs AO deliver a voltage between and 10V according to the given percentage level The interpretation is Analog with MinValue 0V and MaxValue 10V Network variables of type SNVT lev percent are used in LONMARK Mode Digital Outputs DO relays or triacs close when the given value goes active and open when the value goes inactive The interpretation is Digital Network variables of type SNVT switch are used in LONMARK Mode Observe that LIOB 55x devices in BACnet Mode need an initial configuration from the Configurator software to be accessible over the BACnet IP network Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 112 LOYTEC 10 The Configurator This Chapter gives step by step instructions on how to commission a L IOB I O module create a data point configuration in the L INX Configur
197. se width modulated output signal The period is setup with PWMPeriod see Section 9 3 28 In case of an analog output the off and on output values are specified with OffValue and OnValue see Section 9 3 27 The output value in percent coming from the L IOB host is scaled using the MinValue and MaxValue properties see Section 9 3 20 An output value of 5096 would e g translate into an actual pulse width of just in the middle between MinValue and MaxValue an output value of 100 would translate into a pulse width of MaxValue Note that an output value of 096 is still always translated into zero pulse width always off As soon as the output value is slightly raised above 0 however the pulse width jumps to MinValue Fading This interpretation is available for all analog outputs It is equal to the Analog interpretation except for the behavior on a value change The output is not immediately set to the new value but instead a slow fading from the current value to the new value is performed The transition time used for fading from the current value to the new value fading time is setup in the property DeadTime see Section 9 3 7 Since this time is constant the transition speed depends on the difference between current and new value Ramping This interpretation is available for all analog outputs It is equal to the Fading interpretation except that the DeadTime property see Section 9 3 7 specifies the time it takes to ramp from the
198. set to Cardreader ISO2 e GroupNumber must be equal for all three signals of one card reader e SubGroupNumber will automatically be set to Data e Invert depends on implementation of card reader check data sheet LOYTEC electronics GmbH LIOB 10x x5x User Manual 94 LOYTEC e HoldTime specifies the time a new code remains in the L IOB data point After this time the data point is set back to OxBF which means not available If the HoldTime is set to 0 the last read value remains until a new value is read In its live value this L IOB input will represent the read code in a 20 byte array 40 decimal digits In LONMARK mode the SNVT magcard 86 is used 9 5 3 Clock Signal The clock signal of the card reader must be connected to a interrupt capable universal or digital input of the L IOB device The corresponding interpretation Clock will only be available in the Configurator software if the input is interrupt capable The following properties must be set for that input e SignalType if universal input Voltage 0 10V e Interpretation Clock e IOFunc will automatically be set to Cardreader ISO2 e GroupNumber must be equal for all three signals of one card reader e SubGroupNumber will automatically be set to Clock e Invert checked if signal is low active check data sheet of card reader The live value of that L IOB input will not deliver any useful data 9
199. shing at 0 5 Hz RED flashing at 0 5 Hz Description Online Traffic Manual Mode Error Offline Fallback Override Comment The L IOB device is configured online The L IOB device receives or transmits NV or CP values At least one I O is in manual mode An error has occurred e g a sensor is disconnected or signals an error The L IOB device is offline The primary firmware image is corrupt and the L IOB has booted the fallback image In this case the firmware must be upgraded again Table 2 Status LED Patterns in LONMARK Non ECS device mode 3 6 3 Status LED BACnet Mode The meaning of the LED signals for the LIOB 55x models in BACnet device mode is listed in Table 3 Behavior Description Comment OFF No Traffic No packets are received or transmitted Flickering GREEN Traffic The L IOB device receives or transmits packets ORANGE Manual Mode At least one I O is in manual mode RED An error has occurred e g a sensor is RED flashing at 0 5 Hz and LIOB Fallback shown in Error Fallback Override disconnected The primary firmware image is corrupt and the L IOB has booted the fallback LCD UI image In this case the firmware must be upgraded again Table 3 Status LED Patterns in BACnet device mode Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 42 LOYTEC 3 7 Status Button The L IOB device is equipped with a status button see Figure 10 When p
200. ss bar below indicates how many devices are being scanned 5 Select a device in the device list and click the button Scan Objects This scans the BACnet objects on the selected device and adds them to the BACnet Network Scan folder as a separate sub folder for the device 6 If the scan does not give the expected results change the Device Scan Mode to normal or slow and try again With this setting the scanner uses simpler but slower protocol features 7 Click Close when all devices needed have been scanned 10 4 5 2 Import from EDE File If the device is engineered offline or some of the required BACnet devices are not yet online in the network the engineering process can be done by importing a device and object list from a set of EDE files These objects also appear in the import folder and can be later used on the device as client mappings Version 4 8 There are a set of EDE files Select the main EDE file e g device csv The EDE import will also search for the other components which must be named device states csv Example files can be found in the examples directory of the LOYTEC Configurator software installation directory To Import BACnet Objects from an EDE File 1 Goto the Datapoints tab 2 Select the folder BACnet EDE File Imported ps IpACnet EDE File 9 BACnet Network Scan 3 Right click and select Import File In the following file selector dialog choose the EDE import file and
201. t back the device to factory defaults Observe that in the latter case the device mode might change too Device Mode LIOB 15x 45x 55x models here the user can change the device mode of a LIOB 15x 45x 55x device between LONMARK Non ECS LIOB FT IP and BACnet LIOB 55x Observe that changing the device mode will clear all configuration data Model Number LONMARK Mode shows the model number last byte of the Program ID and version number of the corresponding XIF file Language here the user can setup the language English German or French of the LCD display It is possible that changing the device configuration is restricted via a PIN code In this case the user will be requested to enter a pin code before a value can be changed The pin code only needs to be entered once except when the device is not operated manually for more than 30 minutes or the user logs out explicitly 5 5 I O Configuration Version 4 8 If the jog dial is pushed for at least one second on any I O the configuration page for that T O is entered which allows viewing and changing configuration properties of the I O The properties which can be changed are enclosed by angle brackets lt gt By turning the jog dial the user can cycle through the configuration properties If the jog dial is pushed LOYTEC electronics GmbH LIOB 10x x5x User Manual 5 LOYTEC Version 4 8 shortly on a property the edit mode is entered which allows
202. t empty password protection is turned off and everyone can access the device without entering a password Click on Change password to activate the change 6 2 Device Configuration The device configuration pages allow viewing and changing the device settings Here are some general rules for setting IP addresses port numbers and time values e Anempty IP address field disables the entry e empty port number field sets the default port number e An empty time value field disables the time setting 6 2 1 System Configuration Version 4 8 The system configuration page is shown in Figure 36 This page allows configuring the device s system time and other system settings The TCP IP Configuration link is a shortcut to the Ethernet port configuration Follow that link to change the IP settings of the device The time sync source can be set to auto manual NTP BACnet LIOB 55x or LonMark LIOB 45x In the auto mode the device switches to the first external time source that is discovered Possible external time sources are NTP BACnet or LonMark The option manual allows setting the time manually in the fields Local Time and Local Date In manual mode the device does not switch to an external time source Note that if NTP is selected the NTP servers have to be configured on the IP Configuration page see Section 6 2 4 In order to use BACnet as the time source a BACnet device time master must be configured to distribute tim
203. t for BACnet IP It is required for the primary function of the device to exchange control network data between routers over the IP network Each device needs this port open The port can be changed Optional ports not necessary for the primary product function They can be disabled as described in the installation instructions in Section 15 1 e 21 tcp This port is opened by the FTP server The port can be changed and disabled Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 143 LOYTEC 15 4 Services 23 tcp This port is opened by the Telnet server The port can be changed and disabled 5900 tcp This port is opened by the VNC server if it is enabled This port is disabled by default The port can be changed Required services CEA 852 LON over IP Primary function of the device This service is in accordance with the standard ANSI CEA 852 B BACnet IP LIOB 55x Primary function of the device This service is in accordance with the standard ANSI ASHRAE 135 2010 OPC XML DA LIOB 55x This Web service provides access to data points over the OPC XML DA standard Optional services not necessary for the primary product function They can be disabled as described in the installation instructions in Section 15 1 HTTP Web server It provides a Web based configuration UI The Web UI can be disabled after setting up the device FTP and Telnet The FTP and Telnet server is used for connection to the device by the
204. t out as specified Set if Feedback State is 0 Same as Set but only if the feedback state member is 0 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Set if Feedback State is 1 Same as Set but only if the feedback state member is 1 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Increment SNVT switch only The last value of the feedback value member when the feedback state member was 0 is increased by the value member of the corresponding configuration property EventGroupXyzValue and sent with the state member specified in the corresponding configuration property The sent value member is not increased above the value member of the Max Value property see Section 9 3 20 Increment if Feedback State is 0 SNVT switch only Same as Increment but only if the feedback state member is 0 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Increment if Feedback State is 1 SNVT switch only Same as Increment but only if the feedback state member is 1 If not the event group is switched and the corresponding Mode Value properties of the other event group are processed instead Decrement SNVT switch only The last value of the feedback value member when the feedback
205. the user manual of the LWEB 822 900 Master Device Manager tool for information on how to upgrade the L IOB firmware using this tool Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 131 LOYTEC 12 L IOB Device Replacement A defective L IOB device can easily be replaced with a new device of the same type without the need for any configuration changes 12 1 L IOB Device Replacement L INX Mode 12 1 1 LIOB Connect Device Replacement with L INX Power Cycle This Section only applies to LIOB 10x devices If a L INX power cycle is acceptable the L IOB replacement on the LIOB Connect bus can be performed without access to the L INX Web UI or LCD UI using the following steps 1 Switch off power of the L INX device hosting the L IOB device to be replaced 2 Replace the L IOB device with a new device of the same model 3 Switch on power of the L INX device again 4 After a few minutes all L IOB devices including the replaced device will be online again In case not all L IOB devices come online check the status of the L IOB devices in the L INX Web UI Chapter 8 or L INX LCD UI Chapter 7 12 1 2 LIOB Connect Device Replacement without L INX Power Cycle Version 4 8 This Section only applies to LIOB 10x devices If a L INX power cycle is not acceptable the L IOB replacement on the LIOB Connect bus can be performed using the following steps 1 Replace the L IOB device with new device of the same model Observ
206. ting via a LOYTEC NIC Network Interface such as a NIC USB100 or NIC852 Observe that for LIOB 45x Models a NIC852 must already be entered in the CEA 852 channel the L IOB device is a member of Refer to the LOYTEC NIC Software documentation for more information Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 120 LOYTEC The first step is choosing Connection Connect via FTP which invokes the device connection template dialog shown in Figure 73 pere 3 Connection vio M RM NN LROC 2 UNX DL Status Idle UNX OG3 LINX 101 NR Name LIOB 154 AB Ne LINX 110 NR UNX 110 STS Serial No 021001 8000000140 Admin Password eeeeeese sae 120 AB2 3 UNX 121 LIOBTST UNX 151 AD1 TCP IP Connection CEA 709 Connection Interface Nic USB100 1 150 LIOBTST 152 7 AB PCAddress dec 1 120 mE d LIOB 154 AB Auto detectvia Service Pin Device Address dec 1 24 H 180 AB Auto detect viaNodeID UOB 180 JOW F5 LIOB 180 L2 aa Discover amp Install J 181 NodelD 8000000140 A ur de LOYTEC NIC Software V4 14 OK LIOB 183 Be VA comet Figure 73 Device Connection Template Dialog A new connection template can be created by clicking New The Admin Password of a L IOB device is loytec4u by default The radio button CEA 7
207. ton B ema ep vnes in the tool bar of the main window The connect dialog as shown in Figure 74 opens containing the managed device connection templates LOYTEC electronics GmbH LIOB 10x x5x User Manual 121 LOYTEC f 2 m Y Ei Device Connection Templates kE IPIE L ROC DL Status Idle UNX OG3 um LINX 101 NR Name 480 110 NR 110 STS Serial No 021301 8000000140F9 Delete Admin Password eeeeeeee se LINX 120 AB2 LINX 121 LIOBTST LINX 151 AD1 TCP IP Connection CEA 709 Connection LINX 151 PP DOB AS0 Hostname or IP Address 19216812140 LIOB 152 7 AB LIOB 154 AB Use secure connection BORABOAR SSH Port 22 LIOB 180 JOW LIOB 180 L2 FIPPort 21 LOB 181 LIOB 182 Telnet Port 23 E HTTPPort 80 LIOB 184 Test LIOB 450 AB LIOB 451 AB LIOB 480 AB ma x 2 Figure 74 TCP IP connection dialog 2 To add a new device connection click on New or select an existing connection in the tree on the left hand side 3 Enter the host name or IP address of the device Enter the admin password The default password is loytec4u 4 If your device is located behind a NAT router or firewall you may change the FTP Telnet SSH and HTTP ports to your needs for accessing the device 5 Click on Save to store that connection 6 Click on Connect This establishes the connection to the device 10 3 2 L IOB Device Settings The
208. upport COV subscriptions to deliver value changes in an event driven way e BACnet client mappings CM For certain applications it is necessary that the device acts as a BACnet client This functionality can be configured by activating a client mapping Client mappings can be of the type Poll COV Write or Auto This specifies how the BACnet client accesses other BACnet objects on the BACnet network The Auto method determines the best way poll COV or write to talk with other server objects Poll is used for objects that need to read data from other BACnet objects in a periodic manner COV is used to subscribe for COV at other BACnet objects in order to get updates in an event driven fashion Write is used to send updates to other BACnet objects On LIOB 55x devices it is possible to add client mappings to the automatically created native I O server objects The direction of BACnet server objects deserves a closer look The direction specified for data points in the Configurator software always refers to the network view of the communication The definition of input and output objects in BACnet however refers to the process view which is opposite to the network Therefore a BACnet analog input AI object is modeled as an analog output data point The direction of client mappings naturally refers to the network communication Therefore a write client mapping is represented as an analog output data point In BACnet commandable objects c
209. vice switches to LIOB IP device mode Observe that changing the device mode will clear all configuration data 5 2 Main Page of LIOB 10x 15x 45x I O Overview Page The main LCD page of the LIOB 10x 15x 45x models and LIOB 55x in LIOB IP device mode is shown in Figure 32 The LIOB 55x models in BACnet device mode also contain this I O overview page but not as the main page The top and bottom rows show the direction state and operating mode without a letter Auto M Manual Override D Disabled of all I Os I gt D T T T tor D T CoM T m Figure 32 L IOB LCD Display Main Page The I O state is shown as one of the following icons e Switch Icon used for I Os which generate a digital value as well as Inputs in Switch Mode e Bar Icon used for I Os which generate an analog value e Pulse Icon used for pulse count inputs e House Icon used for occupancy inputs e Exclamation Mark shown for disconnected sensors or sensors which indicate an error e Check Icon shown for sensors which indicate correct operation e COM Icon used for all common terminals of relays and triacs e CD Icon used for STId card reader code signals Version 4 8 LOYTEC electronics GmbH LIOB 10x x5x User Manual 48 LOYTEC DT Icon used for STId card reader data signals e Icon used for STId card reader clock signals Refer to Section 9 3 for details on I O types configuratio
210. voInValue to the feedback nvilnSwitchFb of the input object must be created 9 4 3 4 Rocker Switch Version 4 8 This example is implemented in the following I O object template files UI rocker switch 1 xml UI rocker switch 2 xml universal inputs DI rocker switch 1 xml DI rocker switch 2 xml digital inputs This example uses two inputs in a 2 Switch Group For the first input the following properties are changed from the default values in this example e DataType Switch SNVT switch members value state e IOFunc 2 Switch Group e GroupNumber X must be the same as for second input e SubGroupNumber Switch 1 e EventGroup1ShortPushMode Set e EventGroup1ShortPushValue 100 1 e EventGroup2ShortPushMode Set e EventGroup2ShortPushValue 0 0 For the second input the following properties are changed from the default values in this example e DataType Switch SNVT switch members value state e IOFunc 2 Switch Group e GroupNumber X must be the same as for first input LOYTEC electronics GmbH LIOB 10x x5x User Manual 91 LOYTEC SubGroupNumber Switch 2 When the first input is activated rocker switch up 100 1 is sent out When the second input is activated rocker switch down 0 0 is sent out 9 4 3 5 Two Button Dimming This example is implemented in the following I O object template files Version 4 8 UI two button dimming l xml UI two button
211. wareType The hardware type property is available for all I Os The following hardware types are available dependent on the L IOB model IN Analog Digital 10V universal analog digital input UI which can be configured to measure resistance voltage or current with or without internal shunt Observe that this hardware type is also used for the internal pressure sensor e g PRESS in LIOB 154 In this case OV refers to OP Pascal and 10V to 500P e IN Digital digital SO input DI e OUT Analog 12V analog 0 12 V output AO e OUT Relay 6A digital 6 A relay output DO e OUT Relay 16 digital 16 A relay output DO e OUT Triac digital 1 A triac output DO This hardware type property can not be configured of course Refer to Section 16 1 for a detailed specification of the different I O hardware types 9 3 3 SignalType The signal type property is available for I Os of hardware type IN Analog Digital 10V The following signal types can be configured e Resistance measures resistance of about 1 kQ to 100 kQ e Voltage 0 10V measures voltage from 0 to 10 V e Current 4 20mA measures current from 4 to 20 mA A value smaller than 3 5 mA is detected as a disconnected sensor An external shunt of 249 Q must be used for correct measurement e Voltage 2 10V measures voltage from 2 to 10 V A value smaller than 1 8V is detected as a disconnected sensor e Current 4 20mA Shunt measures current from 4 to 20
212. with spaces between each byte e g 00 11 22 33 44 55 66 77 88 99 AA BB CC DD EE FF LOYTEC electronics GmbH LIOB 10x x5x User Manual 60 LOYTEC Also note that entering the MD5 secret on the Web interface may pose a security risk Since the information is transmitted over the network it can be subject for eavesdroppers on the line It is recommended to use a cross over cable In the field Location string the user can enter a descriptive test which identifies the physical location of the device A location string can have a maximum length of 255 characters This is optional and for informational purposes only If the CEA 852 unit on the L IOB is used behind a NAT router the public IP address of the NAT router or firewall must be known To automatically detect the NAT address leave the Auto NAT checkmark enabled The Multicast Address field allows the user to add the CEA 852 unit of the L IOB into a multi cast group for the CEA 852 IP channel Enter the channel s IP multi cast address here Please contact your system administrator on how to obtain a valid multi cast address To learn when it is beneficial to use multi cast addresses in your channel please refer to the L IP User Manual 6 2 8 BACnet Configuration BACnet Mode Figure 43 shows the BACnet device configuration page of a LIOB 55x in BACnet Mode This configuration page allows setting the Device ID which is the instance part of the Object Identifier property of the BACnet Dev
213. y 1628 or the filter table of the firewall is incorrect red exclamation red exclamation Peer not reachable Displayed for a device if it is not reachable No RTT is displayed The device is either not online not connected to the network has no IP address or is not reachable behind its NAT router Execute this test on the suspicious device to determine any NAT configuration problem red exclamation Table 4 Possible Communication Problems 6 3 5 CEA 709 Statistics LIOB IP or LONMARK Mode The CEA 709 statistics page displays statistics data of the CEA 709 port on the device as shown in Figure 49 This data can be used to troubleshoot networking problems To update the data click on the button Update CEA 709 statistics DLOYTEC LIOB 450 Logged in as Update CEA 709 statistics A admin 2012 07 09 07 26 36 aM Domain ID length 6 Domain ID 0x4c4159544543 Device Info ha Subnet ID 3 Config v Node ID 1 YU u Not in use x 6 709 application sta m CEA 709 Device IP IP 852 Reset tU Node state configured online 0x04 t Seconds since cleared 499892 Contact Transmission errors 0 Transmit TX success failures 685455 23309 96 71 3 29 munus Receive TX full 0 Lost messages 0 Missed messages 0 Layer 2 received 60208 Layer 3 received 60204 Layer 3 transmitted 22261 Transmit TX retries 4655 Figu
214. y of that I O For interpretation Physical Unit Count it also specifies the increment for each pulse see Section 9 3 4 9 3 17 MultUS and OffsUS The US Multiplier and Offset properties are available for all I Os with an analog data type Using the Configurator the user can choose between SI and US units In case of US units the I O values displayed in the L IOB host Web UI and L IOB LCD UI are converted using these properties ValueUS ValueSI MultUS OffsUS The US unit name is setup in the USUnit OffText property see Section 9 3 15 Observe that the properties setup in the Configurator as well as the connected data points will still always carry SI units 9 3 18 DisplayOnSymbol and DisplayOffSymbol 9 3 19 Offset The display on off symbol properties are available for inputs with Interpretation Digital see Section 9 3 4 They are used to specify the display of the two digital states ON and OFF For both these states the following symbols can be chosen e OPEN open switch symbol e CLOSED closed switch symbol e OK check symbol e ERROR exclamation mark symbol The offset property is available for inputs with an analog data type It is added at the end of the calculation to the already processed value This way e g temperature sensors can be calibrated in each room without changing the common application 9 3 20 MinValue and MaxValue The minimum and maximum value properties are available for all I Os with an
215. y switch to both manual mode and quick edit mode by turning to the jog dial The manual mode along with the quick edit mode can be left again by pushing the jog dial for at least one second The manual mode can also be setup in the corresponding I O configuration page see Section 5 5 or for all I Os in the device configuration page see Section 5 4 If an input is in manual mode the physical input from the connected sensor is ignored and the user can setup a simulated input value to be used in the L IOB host application or receiving node This can be used e g to test the behavior of the application in the L IOB host or receiving node depending on certain input values If an output is in manual mode the value coming from the L IOB host or sending node is ignored and the user can set the value for the actuator connected to the physical output This can be used to physically test the connected actuator It is possible that changing the manual value is restricted via a PIN code In this case the user will be requested to enter a pin code before the value can be changed The pin code only needs to be entered once except when the device is not operated manually for more than 30 minutes 5 4 Device Information and Configuration LIOB 10x 15x 45x Version 4 8 This page is available for the LIOB 10x 15x 45x models as well as the LIOB 55x models in LIOB IP device mode If the jog dial is pushed when the device configuration icon toothed wheel i
216. ype of the live value Input Read data point will be Double and thus an Analog Input AI BACnet object will be created Table 10 shows all possible native BACnet object types for I Os VO I O Live Value Type BACnet Object Feedback Object E E E Analog pa AO DO Boolean Binary Output BO Table 10 Native BACnet object types for I Os For an AO object an additional AI object is generated as the feedback value object For BO objects a separate feedback object is not required since a feedback value is already included in the BACnet BO object For the STId Card Reader mode see Section 9 5 the I O live value type of the Card Data input is an array of 40 nibbles which contains the last read Card ID in BCD encoding LIOB MagCard In this case the first BCD digits that form a number which can be displayed by a BACnet float are written to the Present_Value of the created BACnet AI object An ASCII version of the entire BCD code is written to the Description property of the BACnet object When using native BACnet objects for L IOB outputs the BACnet priority array concept is used in the I O operating mode Auto for determining the physical output value Other I O operating modes Override Manual Disabled see Section 9 3 11 bypass the BACnet priority array The physical value is determined by the override value or manual value in this case The following L IOB live value and confi
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