SM-LON User Guide - Control Techniques
Contents
1. 19 am Complete parameter reference sssssssssssseeeeeeeeenne 62 E 8 Configuration properties A 16 36 65 EE Control word Cyclic data ina ei eet de tee e cie xem e EE o D a Wd DATA rated 65 S Date code formato na o tt e it 9 amp py EMI E 65 Device interface configuration file XIF File Diagnostic flow chart SJojouleJed Diagnostics ice ree d iie de eed nies 56 DOMAIN WEE 16 65 E T EAMAN enaena D 65 Electrical installation cdit cette tet rr re e ete te cd 12 2 Electrical satety erte 5 F E Functional blocks eee 16 36 65 8 G G etting Started iii ie RR Eg ee ape ee eas 16 e Glossary Getreide A DER pe Redde 65 2 Eet WE 12 I 2 A NEED 67 i introduction e LE 8 o ER L S RT WEE 65 9 LonMaker Integration Tool sssssssseeeeeneeeneeennnnn 18 LonWorks amp RE M Maximum network length ooocccnnnccconoccccononcccononccnonananonnona nono ncn none ncnnnnnncnnanos 13 SM LON User Guide 67 Issue Number 1 www controltechniques com Mechanical installation 2 rice aada engen 11 Minimum node to node cable length 13 Minimum software versions required 17 Module parameters siii hierher ee ER ERE YE ELLE EE Ede 28 Me METER 66 N nciDrvSpeedsScale 2 deseen E du SELLE aea 43 44 45 nciEventTask 44 50 55 64 AAA2. A Untwisted wires or cables containing flat or parallel untwisted conductors must not be used on a LonWorks twisted pair channel The use of these wires cables may result in improper network operation and could result in damage to the nodes connected 4 5 Network termination Each segment of the network must be terminated correctly for reliable operation for a bus connected segment each end of the segment must be terminated with a 56 Q resistor for a free topology segment the segment needs to be terminated with two 56 Q resistors these may be installed at any convenient terminal The SM LON module uses two AC coupled resistors for network termination The value of each resistor is approximately 56 Q selectable by means of the DIP switch To select a termination resistor the switch should be closed down to remove the termination the switch should be opened up SM LON User Guide 13 Issue Number 1 www controltechniques com uonejlejsu EE d Jeolueyooy uoneljejsul LAMPE Q amp a S a 2 SJejeuieJeg Jeuonoun4 e0u8JeJ8y JAMNO sonsouBeiq Suel JO Messo 4 5 1 Bus topology Bus networks use a common backbone to connect all devices A single cable the backbone functions as a shared communication medium that devices attach or tap into The normal method of connection is illustrated in Figure 4 3 where each cable is terminated at a device and the devices at each end of the se
3. sess 16 Status Word PP 4 ree n nme nir rer re EI TERES ERR IEEE tin ERE Ee FEAR CY eut esa 66 SUBIMGE PD 16 66 T Terminating resistor ci D dE 66 U User defined Configuration Property Type UCPT eseese 16 User defined Network Variable Type UNVT eesee 16 V Variable Speed Motor Drive VSD eenen 16 36 42 66 VSD Control Techniques specific input network variables 45 47 VSD Control Techniques specific output network variables 51 VSD Object Functional Block E VSD Standard input network variables sesssseeeeee 44 VSD Standard output network variables ooooocninicnnnnccccnnoccconaccnnoncncnnonnnons 44 W Wink EED Jic dee delante dl eain MEL E 26 56 Word a A 66 X XIF IG Siva cs cave oiv dt n eoe dra ge e eec De AA E 24 66 SM LON User Guide www controltechniques com Issue Number 1 0471 0111 01
4. The value in this network variable should be the drive menu number multiplied by 100 plus the parameter number e g to use Pr 18 30 as the destination parameter this network variable should be set to a value of 1830 the value of the input network variable nviln2 will then be written to Pr 18 30 Note Care must be taken when selecting the destination parameter to ensure that the full input value of nviln2 can be written correctly SM LON User Guide www controltechniques com Issue Number 1 Table 7 27 nviln1 nviln1 Default 0 SNVT Type UNVT count inc 32 Optional Syntax Byte3 Byte2 Byte1 Byte0 Range 231 to 231 4 uoneuuojul Ajejes This input network variable value will be written to the drive parameter specified by the network input variable nvilnDest1 The actual value written to the drive parameter is calculated as follows uononpoau For values of Byte3 less than 128 positive parameter values from 0 to 231 4 value ByteO Byte1 256 Byte2 256 Byte3 256 For values of Byte3 greater than 127 negative parameter values from 231 to 1 value Byte0 Byte1 256 Byte2 2562 Byte3 2563 222 For example to write the value 123456789 to the drive parameter specified in nvilnDest1 Byte0 21 21 1 21 Byte1 205 205 256 52480 Byte2 91 91 256 5963776 Byte3 7 7 256 117440512 Value 21 52480 5963776 117440512 123456789 uonejeisu
5. This is used as a way to identify the node on the network This parameter is an indication of the value set by the network configuration tool during commissioning start up itis not used to actually set the node ID of the drive and can only be changed during the network commissioning start up process SM LON User Guide www controltechniques com Issue Number 1 6 4 6 5 SM LON diagnostic information SM LON diagnostic information N A 9999 to 9999 RO The diagnostic information for the SM LON can be viewed in the diagnostic information parameter Pr MM 06 When the SM LON is communicating successfully Pr MM 06 will give an indication of the number of network variable updates per second This includes received messages from other devices and transmitted messages from SM LON These messages will generally be network variable updates Table 6 1 SM LON operating status codes Pr MM 06 Description Running states Indicates the total number of messages SM LON has detected per second Module commissioned but no network messages detected The Solutions Module has initialised correctly but has not been commissioned on the network Initialisation failure one possible cause of initialisation failure is the drive is configured in regen mode Invalid configuration parameters Software error The drive interface is being initialised SM LON network loss trip Pr MM 0
6. amp EMERSON Industrial Automation User Guide SM LON Unidrive SP Affinity Commander SK Digitax ST Part Number 047 1 01 11 01 Issue 1 Ha a CONTROL ww TECHNIQUES www controltechniques com General Information The manufacturer accepts no liability for any consequences resulting from inappropriate negligent or incorrect installation or adjustment of the optional operating parameters of the equipment or from mismatching the variable speed drive with the motor The contents of this guide are believed to be correct at the time of printing In the interests of a commitment to a policy of continuous development and improvement Control Techniques reserves the right to change the specification of the product or it s performance or the contents of this guide without notice All rights reserved No parts of this guide may be reproduced or transmitted in any form or by any means electrical or mechanical including photocopying recording or by an information storage or retrieval system without permission in writing from the publisher LON Neuron and LonWorks are registered trademarks of Echelon Corporation and LonPoint and LonMaker are trademarks of Echelon Corporation Software versions supported by this document Software Version SM LON Firmware V01 00 00 or later Unidrive SP V01 06 00 or later Digitax ST V01 00 00 or later Affinity V01 00 00 or later Commander SK V01 06 00 or later C
7. Range 0 to 65534 RPM This configuration property is used to convert the speed command percentage value of the input network variable nviDrvSpeedStPt and the network output variable nvoDriveSpeed into RPM Table 7 17 nciRampDownTime nciRampDownTime Default 10 0 seconds SNVT Type SNVT time sec Mandatory Syntax Value Range 0 0 to 6553 4 seconds This configuration property is used to specify the time in seconds that the drive will take to decelerate the motor from the maximum speed nciNmlSpeed to the zero speed This value will be scaled to the time in seconds that the drive will take to decelerate by 1000 RPM or 100 Hz in open loop mode This scaled value will be written to Pr 2 21 The ramps must be enabled for this configuration property to have any effect Table 7 18 nciRampUpTime nciRampUpTime Default 10 0 seconds SNVT Type SNVT time sec Mandatory Syntax Value Range 0 0 to 6553 4 seconds This configuration property is used to specify the time in seconds that the drive will take to accelerate the motor from zero speed to the maximum speed nciNmlSpeed This value will be scaled to the time in seconds that the drive will take to accelerate by 1000 RPM or 100 Hz in open loop mode This scaled value will be written to Pr 2 11 The ramps must be enabled for this configuration property to have any effect 46 www controltechniques com SM LON User Guide
8. LE The Commander SK drive does not support more than one option module installed consequently if using SM LON the nciEventTask and nviTriggerEvent network variables cannot be used with the Commander SK drive eoueJeJey JAMNO sonsouBeiq Eege suue JO Messo SM LON User Guide 55 Issue Number 1 www controltechniques com Diagnostics This section of the manual provides basic diagnostic information intended to enable resolution of the most common problems encountered when setting up a SM LON module A high percentage of problems reported are basic setup problems that can be avoided by using the following pages Start by using the Diagnostic flow chart on page 57 to determine the possible cause of a problem If after following the flow chart you are still experiencing problems please contact your supplier or local drive centre for support Please note that support will be limited to setup and networking of the drive and not 8 1 56 network infrastructure design LED diagnostics The SM LON module is equipped with 2 diagnostics LEDs on the front panel as illustrated in Figure 8 1 The functions of these LEDs are described in Table 8 1 Table 8 1 LED functionality LED Name LED State Description Wink Off Normal Flashing green Wink function active Service Off Normal Flashing red slow Device not configured on the network 1 second on 1 second off The Wink LED is used to check that network co
9. Device Name s SM LON State ource of Configuration Property Values Default Offline Online Disable Select the Online option followed by either Default values if the default configuration property values are to be used or the Current values in device option if the configuration property values currently stored in the device are to be used then click the Finish button The LonMaker network integration tool then loads all the files as required and displays a message box prompting for the user to press the service pin on the device as shown in Figure 5 14 on page 27 The service pin is a button on a device that when pressed transmits a message to the LonMaker network integration tool to initiate configuration this message contains the neuron ID of the device and allows the LonMaker network integration tool to commission the device The SM LON module does not use a button but a drive parameter Pr MM 36 is provided for this purpose When this parameter is changed from OFF 0 to ON 1 SM LON will transmit the service message and the Service message prompt window will be closed automatically SM LON then undergoes a configuration sequence if this sequence is successful the SM LON module will be configured and the Wink LED will stop flashing Parameter Pr MM 36 will automatically revert to OFF 0 after transmitting the service message 26 SM LON User Guide www controltechniq
10. Issue Number 1 Table 7 19 nciRcvHrtBt nciRcvHrtBt Default 0 0 seconds SNVT Type SNVT time sec Optional Syntax Value Range 0 0 to 6553 4 seconds uoneuuojul Ajejes This configuration property is used to specify the maximum time interval allowed between updates of the input network variables nviDrvSpeedStPt and nviDrvSpeedScale If the specified time is exceeded for either variable and this feature is enabled on the device the following events will be occur uononpoau 1 The drive will decelerate to zero speed using the ramp configuration properties and then it will be inhibited 2 The value of the input network variable that was not updated will be set to its default value 3 If both variables were not updated and Pr MM 07 is set to 1 then SM LON will initiate a network loss trip on the drive uonejejsu Jeolueyooy If this configuration property is set to 0 0 then the heartbeat function is disabled and consequently the network loss detection is also disabled Table 7 20 nciSndHrtBt nciSndHrtBt Default 0 0 seconds SNVT Type SNVT_time_sec Mandatory Syntax Value Range 0 0 to 6553 4 seconds This configuration property is used to specify the time interval between updates of the output network variables nvoDrvCurnt nvoDriveSpeed nvoDrvVolt and nvoDrvPwr There will be one instance of this property to control the transmission interval of all the output variables uoneliejsu 12919813 o
11. Jeolueyooy uoneliejsu 18919813 Table 7 28 nviln2 peuejs Dumec nviln2 Default 0 SNVT Type UNVT count inc 32 Optional Syntax Byte3 Byte2 Byte ByteO Range 231 to 231 4 o o o This input network variable value will be written to the drive parameter specified by the network input variable nvilnDest2 The actual value written to the drive parameter is calculated as follows U i S 3 o ba a For values of Byte3 less than 128 positive parameter values from 0 to 231 4 value ByteO Byte1 256 Byte2 2562 Byte3 256 For values of Byte3 greater than 127 negative parameter values from 231 to 1 value Byte0 Byte1 256 Byte2 2562 Byte3 256 222 For example to write the value 123456789 to the drive parameter specified in nvilnDest2 Byte0 21 21 1 21 Byte1 205 205 256 52480 Byte2 91 91 2562 5963776 Byte3 7 7 256 117440512 Value 21 52480 5963776 117440512 123456789 DEET euoyouny sonsouBeiq eou8JeJey JAMNO Suel JO Messo SM LON User Guide 49 Issue Number 1 www controltechniques com 50 Table 7 29 nviOutSrc1 nviOutSrc1 Default 1811 SNVT Type SNVT count Optional Syntax Value Range 0 to 65535 This input network variable is used to specify a drive parameter to be used as the source for the output network variable nvoOut1 The value in this network variab
12. The window shown in Figure 5 10 is displayed Figure 5 10 Device properties New Device Wizard Specify Device Properties Device Name SM LON Ping Interval Never Description Cancel 24 SM LON User Guide www controltechniques com Issue Number 1 Click Next to continue and the Device Identification window should be displayed The Service Pin option should be selected as shown in Figure 5 11 uoneuuojul ejes Figure 5 11 Device identification New Device Wizard Device Identification Method Device Name s SM LON uononpoau uonejejsu jEoiueuoe C Manual Neuron ID uoneliejsu 18919813 Cancel E amp 2 a o S bd a Click the Next button to continue the window shown in Figure 5 12 will be displayed SINPON Figure 5 12 Device image name Sisjeueied New Device Wizard Specify device application image name Device Template SM Lon sy20 g Jeuonoun4 Device Name s sonsouBeiq E Image Name C LonWorks types User ControlT echniques 33 08 00S XIF Name C LonWorks types User ControlT echniques 99 08 0045 aouaJejey JANO sua JO Hesso SM LON User Guide 25 Issue Number 1 www controltechniques com Click Next to continue and the initial device state window is displayed as shown in Figure 5 13 Figure 5 13 Device state New Device Wizard Specify the initial state of the device and the source of CP values
13. sssssseeeeee 17 Setting up the SM LON module T Setting up a LonWorks network sssssssseeneee eene 18 www controltechniques com 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 6 9 6 10 6 11 6 12 6 13 6 14 6 15 6 16 6 17 6 18 6 19 6 20 6 21 6 22 6 23 6 24 7 1 7 2 7 3 7 4 8 1 8 2 8 3 8 4 8 5 9 1 9 2 10 Module Parameters SM LON module ID code M SM LON firmware Version sse SM LON node ID catan salis SM LON diagnostic information sssssssseenee 29 SM LON network loss trip 29 SM LON subnet ID SM LON domain ID length SM LON domain ID byte 1 SM LON domain ID byte 2 SM LON domain ID byte 3 SM LON domain ID byte 4 SM LON domain ID byte 5 SM LON domain ID byte 6 SM LON load defaults SM LON save option parameters backup SM LON re initialise oo eee 1 32 SM LON restore parameters ccccccceeseceeeeeeeeeeeeeeeeeeeeeseeeseeeeeeeeeeeeeteees 33 SM LON initialise drive reference selectors ssesssss 33 SM LON serial number A SM LON transmit service pin message sse 34 SM LON wink iet tea ee e EE Heg e e e ede 34 SM LON unconfigure option oooococcninnniccccconoccncncncnnancnnncnnncnn cnn nan cnn conan 34 SM LON default configuration property storage ssssssss 35 SM LON option module error status sss 3
14. 2 on page 39 SNVT Yes Node Output S nvoAlarm2 Table 7 3 on page 40 SNVT No Node Output nciLocation Table 7 4 on page 41 SCPT No Node Input nviDrvSpeedScale Table 7 5 on page 44 SNVT No VSD Input a J nviDrvSpeedStPt Table 7 6 on page 44 SNVT Yes VSD Input SS nvoDrvCurnt Table 7 7 on page 44 SNVT No VSD Output 38 nvoDrvPwr Table 7 8 on page 45 SNVT No VSD Output nvoDrvRunHours Table 7 9 on page 45 SNVT No VSD Output 5m nvoDrvSpeed Table 7 10 on page 45 SNVT Yes VSD Output B 8 nvoDrvVolt Table 7 11 on page 45 SNVT No VSD Output S nciDrvSpeedScale Table 7 12 on page 45 SCPT No VSD nput nciMaxSpeed Table 7 13 on page 46 SCPT Yes VSD nput g nciMinSpeed Table 7 14 on page 46 SCPT Yes VSD nput a nciNmlFreq Table 7 15 on page 46 SCPT Yes VSD nput g nciNmlSpeed Table 7 16 on page 46 SCPT Yes VSD nput nciRampDownTime Table 7 17 on page 46 SCPT Yes VSD nput nciRampUpTime Table 7 18 on page 46 SCPT Yes VSD nput S nciRcvHrtBt Table 7 19 on page 47 SCPT No VSD nput nciSndHrtBt Table 7 20 on page 47 SCPT Yes VSD nput Control Techniques Specific Network Variables nviAppSpecific1 Table 7 21 on page 47 SNVT No VSD nput 2 nviAppSpecific2 Table 7 22 on page 47 SNVT No VSD nput nviAppSpecific3 Table 7 23 on page 48 SNVT No VSD nput nviDrvReset Table 7 24 on page 48 SNVT No VSD nput 3 nvilnDest1 Table 7 25 on page 48 SNVT No VSD nput amp nvilnDest2 Table 7 26 on page 48 SNVT No VSD nput g nviln1 Table 7 27 on page 49 UNVT No VSD nput 9 nviln2 Tab
15. 7 Issue Number 1 www controltechniques com uonejejsul WEE oe jeolueyoo uonellejsu 1291199813 g Ed El a 2 S a 9 SJejeuleJeg jeuonoun4 eoueJeJey JAMNO sonsoubeiq Suel JO Messo o 2 1 Introduction SM LON features The SM LON is a Solutions Module that can be used on the following products to provide connectivity to a LonWorks network Unidrive SP Affinity Commander SK Digitax ST The following list gives an overview of the functionality available within SM LON Single 3 way 5mm 0 2in pitch screw terminal pluggable removable connector Supplementary grounding tag Support for Node Object functional block Support for Variable Speed Motor Drive VSD functional block profile Service pin operation controlled by parameter Wink LED Service LED Free topology operation 78kBit s twisted pair TP FT 10 Automatic setting of reference parameters for network control Internal termination resistors selectable by switches Although the LonWorks network specification provides for supplying the DC supply to the device over the network data wires Link power TP LP 10 SM LON does not require this DC supply and will not be affected if this supply is connected Unidrive SP Backup auxiliary supply Unidrive SP and Affinity can be connected to a 24Volt backup power supply using the control terminals This keeps the control electronics and Solutio
16. ES a S a 2 If this configuration property is set to 0 0 then no updates of these output variables will be propagated over the network SJojouieJeqd SINPON 7 4 11 VSD Functional Block CT Specific Input Network Variables Table 7 21 nviAppSpecific1 DEET Jeuojoung nviAppSpecific1 Default 0 SNVT Type SNVT count inc Optional Syntax Value Range 32768 to 32767 This input network variable will map directly to Pr 18 13 and provides a means of writing a value to the drive This network variable is better suited for run time usage than the configurable parameter input variables nviln1 or nviln2 sonsouBeiq Table 7 22 nviAppSpecific2 nviAppSpecific2 Default 0 SNVT Type SNVT count inc Optional Syntax Value Range 32768 to 32767 eoueJeJey JAMNO This input network variable will map directly to Pr 18 14 and provides a means of writing a value to the drive Due to fewer internal resources being used this network variable is better suited for run time usage than the configurable parameter input variables nviln1 or nviln2 Suel JO Hesso SM LON User Guide 47 Issue Number 1 www controltechniques com Table 7 23 nviAppSpecific3 nviAppSpecific3 Default 0 SNVT Type SNVT count inc Optional Syntax Value Range 32768 to 32767 This input network variable will map directly to Pr 18 15 and provides a means of writing a value to the drive Due to fewer internal resources being use
17. Non cyclic explicit data Data that is requested or sent as required and not on a regular basis Sometimes referred to as Explicit data Octet A collection of 8 binary digits which form a byte PC Personal computer PLC Programmable logic controller Poll rate The rate at which cyclic data is sent and received on the network Polled data See Cyclic data Scan rate See Poll rate Shielding A connection to provide additional immunity to noise used on a network cable Status word A value that denotes the status of the drive Each bit within the word will have a specific meaning Subnet A part of a network that identifies a range of devices connected together Devices on the same subnet may communicate directly with other devices on the same subnet without the use of a gateway Terminating resistor A resistor connected to network data wires in order to suppress reflected signals VSD An acronym for Variable Speed motor Drive a functional block which provides basic drive control Word A collection of 16 binary digits XIF file An acronym for eXternal Interface File a file which specifies the device configuration properties SM LON User Guide www controltechniques com Issue Number 1 Index gt S A fes dp E gt Addressing ES El Adjusting parameters ii 6 amp o B Sie TT WEE 8 TEE 65 ig A A 65 S n Sg LEENA EA E SL d Se A OS SR Re 13 Commissioning the SM LON module on the network
18. Press the red reset button on the drive Network communications will be stopped The host drive will load and store its default parameter values Default parameter values for the SM LON will be loaded in Pr MM xx parameters The SM LON default parameter values will be stored in the SM LON flash memory SM LON will reset and re initialise using the default values ETE The drive settings will also be defaulted with the above procedure 6 15 SM LON save option parameters backup OFF OFF ON RW Setting this parameter to ON will save the module s current configuration in it s local memory During this operation network communications will be stopped This will also save menu 60 Pr 60 xx This parameter should only be used to transfer a SM LON module to a different drive A drive save will be required to ensure that SM LON has the correct settings available from the host drive at startup To save the parameters in the drive a value of 1000 should be entered in Pr xx 00 6 16 followed by a drive reset press the reset button or toggle the reset input or write the value 100 to Pr 10 38 If the drive is in the under voltage trip state or is fed from a low voltage backup supply the value 1001 should be used and not 1000 SM LON re initialise OFF OFF ON RW Setting this parameter to ON will force the module to re initialise and start up with the values contained in the slot menu of th
19. functional block may contain one or more of these configuration properties Supported functional blocks SM LON supports two functional blocks these being the Node Object and Variable Speed Motor Drive VSD Node Object functional block The node object provides basic device management facilities SM LON supports the following node object network variables and configuration properties nviRequest SNVT mandatory nvoStatus SNVT mandatory nvoAlarm2 SNVT nciLocation SCPT These properties are illustrated in Figure 7 1 on page 37 SM LON User Guide www controltechniques com Issue Number 1 Figure 7 1 Node Object Functional Block uoneuuojul Kayes nvoStatus K SNVT obt status P nvoAlarm2 b SNVT alam 2 S VOTE uononpoau jEoiueuoe uoneliejsu 1891139813 n E d S SJojoul amp Jeg enpon Mandatory Optional nciLocation SA90 8 euoyouny sonsouBeiq The node object network variables consist of one input variable nviRequest two output variables nvoStatus and nvoAlarm2 and one configuration property nciLocation souaajey JANO Table 7 1 on page 38 describes the nviRequest input variable Table 7 2 on page 39 describes the nvoStatus output variable Table 7 3 on page 40 describes the nvoAlarm2 output variable and Table 7 4 on page 41 describes the nciLocation configuration property sua JO Hesso SM LON User Guide 37 Issue Number 1 www controltechniques com 7 4 2 N
20. longer than the received heartbeat time nciRcvHrtBt Suel JO Messo SM LON User Guide 45 Issue Number 1 www controltechniques com Table 7 13 nciMaxSpeed nciMaxSpeed Default 100 000 SNVT Type SNVT lev percent Mandatory Syntax Value Range 163 840 to 163 830 This configuration property is used to limit the maximum speed reference This value is applied to the speed reference nviDrvSpeedStPt after it has been scaled by the speed scaling network variable nviDrvSpeedScale but before it is converted to RPM Table 7 14 nciMinSpeed nciMinSpeed Default 096 SNVT Type SNVT lev percent Mandatory Syntax Value Range 163 840 to 163 830 This configuration property is used to limit the minimum speed reference This value is applied to the speed reference nviDrvSpeedStPt after it has been scaled by the speed scaling network variable nviDrvSpeedScale but before it is converted to RPM Table 7 15 nciNmlFreq nciNmlFreq Default 50 or 60 Hz SNVT Type SNVT freq hz Mandatory Syntax Value Range 0 to 100 Hz This configuration property is used to limit the motor rated frequency In open and closed loop modes this value will be mapped to Pr 5 06 in servo mode it will not be mapped to any parameter and will have no effect on the drive Table 7 16 nciNmlSpeed nciNmlSpeed Default 1800 RPM SNVT Type SNVT rpm Mandatory Syntax Value
21. will revert to OFF when the wink state has been cleared Upon receiving the wink message Pr MM 37 will be set to ON and SM LON will flash the wink LED for a period of approximately 15 seconds SM LON unconfigure option 0 0 to 255 RW This parameter can be used to unconfigure the SM LON module from the network When Pr MM 38 changes from 0 to 1 the SM LON module will remove its network address from the network and the Service LED will flash continuously 1 second on 1 second off The module can then be re commissioned using the network configuration tool If Pr MM 38 is set to a value greater than O then SM LON will write a value of 1 to this 34 parameter SM LON User Guide www controltechniques com Issue Number 1 6 23 SM LON default configuration property storage 0 0 to 255 RW This parameter is used to reset the configuration properties stored within the EEPROM this will overwrite any configuration property data currently stored in the EEPROM and set them to their default values The following sequence can be used to default the configuration property data Set Pr MM 39 to a value of 55 Reset the option module by either setting Pr xx 00 to a value of 1070 or setting Pr MM 32 to ON The configuration properties will be cleared and Pr MM 39 will be reset to O uoneuuojul uononpoau fies uonejlejsu jEoiueuoe A Care should be taken if using this
22. zero LUE The default value for Pr MM 07 will be 1 for versions of Unidrive SP firmware earlier than V01 12 01 sonsouBeiq 5 3 2 SM LON diagnostic information Diagnostic information N A 9999 to 9999 RO e0u8JeJey JAMNO The diagnostic information for the SM LON can be viewed in the diagnostic information parameter Pr MM 06 When the SM LON is communicating successfully Pr MM 06 will give an indication of the number of network variable updates per second This includes received messages from other devices and transmitted messages from SM LON These messages will generally be network variable updates Suel JO Hesso The operating status codes are described in Table 5 2 on page 18 SM LON User Guide 17 Issue Number 1 www controltechniques com Table 5 2 SM LON operating status codes Pr MM 06 Meaning Running states Indicates the total number of messages SM LON has detected per second Module commissioned but no network messages detected The Solutions Module has initialised correctly but has not been commissioned on the network Initialisation failure one possible cause of initialisation failure is the drive is configured in regen mode Invalid configuration parameters Software error The drive interface is being initialised 5 3 3 SM LON transmit service pin message Transmit service pin message OFF OFF ON RW This parameter is use
23. 3 Byte2 Byte ByteO Range 231 to 231 4 DEET m S 3 a CO o 3 D This output network variable is used to return the value in the drive parameter specified by the output network variable nviOutSrc2 The actual value of the drive parameter is calculated as follows For values of Byte3 less than 128 positive parameter values from 0 to 231 4 value ByteO Byte1 256 Byte2 256 Byte3 2563 sonsouBeiq For values of Byte3 greater than 127 negative parameter values from 231 to 1 value Byte0 Byte1 256 Byte2 2562 Byte3 2563 222 For example the value 123456789 in the drive parameter specified in nviOutSrc2 is displayed as eoueJeJey JAMNO Byte0 235 235 1 235 Byte1 50 50 256 12800 Byte2 164 164 256 10747904 Byte3 248 248 256 4160749568 Value 235 12800 10747904 4160749568 2 2 123456789 Suel JO Messo SM LON User Guide 53 Issue Number 1 www controltechniques com Table 7 46 nvoOverloadWrn nvoOverloadWrn Default N A N A SNVT Type SNVT switch Optional Syntax Value State Range N A 0 to 1 This output network variable provides two settings the first setting Value is not used by SM LON The second setting State is used to indicate a drive overload warning This value is taken from Pr 10 17 Table 7 47 nvoSpeedActRpm nvoSpeedActRpm Default N A SNVT Type SNVT rpm Mandatory Syntax V
24. 4 nvoAniginput2 nvoAnlgInput2 Default N A SNVT Type SNVT lev percent Mandatory Syntax Value Range 100 000 This output network variable is mapped to the drive analog input 2 Pr 7 02 The resolution of this network variable is identical to Pr 7 02 and accurate to one decimal place uonejejsu JEoiueuoe uoneliejsu 18919813 Table 7 35 nvoAppSpecific1 nvoAppSpecific1 Default 0 SNVT Type SNVT_count_inc Optional Syntax Value Range 32768 to 32767 This output network variable will map directly to Pr 18 16 and provides a means of reading a value from the drive This network variable is better suited for run time usage than the configurable parameter output variables nvoOut1 or nvoOut2 o ol El S a 2 SJojouleJed Table 7 36 nvoAppSpecific2 nvoAppSpecific2 Default 0 SNVT Type SNVT_count_inc Optional Syntax Value Range 32768 to 32767 This output network variable will map directly to Pr 18 17 and provides a means of reading a value from the drive This network variable is better suited for run time usage than the configurable parameter output variables nvoOut1 or nvoOut2 Jeuojouny sonsouBeiq Table 7 37 nvoAppSpecific3 nvoAppSpecific3 Default 0 SNVT Type SNVT count inc Optional Syntax Value Range 32768 to 32767 This output network variable will map directly to Pr 18 17 and provides a means of reading a value from the drive This network variab
25. 5 Functional Blocks 36 What is a functional block ssssseseenenenn 36 Network variables 36 Configuration properties 36 Supported functional blocks oooniccnnnonicinncninnncccoococccconncarncnnconcnonc cane nanannna 36 Diagnostics entente LED diagnostics sesenta Diagnostic flow chart m Module identification parameters sees 58 Network configuration parameters ccccccecececeeeeeeeeeeeeeeeeeeeeeeeeeneeeaeeaes 58 Diagnostic parameters iii caida 60 Quick Reference 5 5 cce eee Complete parameter reference x Complete network variables reference sssssssseeees 63 Glossary Of Terms eene 65 SM LON User Guide www controltechniques com Issue Number 1 1 Safety Information uoreuioju Mayes 1 1 Warnings cautions and notes uononpoau A A Warning contains information which is essential for avoiding a safety hazard WARNING WARNING A Caution contains information which is necessary for avoiding a risk of damage to the product or other equipment uonejleisul Jeoiueuoe A LUE A Note contains information which helps to ensure correct operation of the product uonelejsu 1291199813 1 2 Electrical safety general warning The voltages used in the drive can cause severe electrical shock and or burns and could be
26. 7 This parameter is used in conjunction with the received heartbeat time configuration variable nciRcvHrtBt to cause a trip condition if the network connection is lost The value of the variable nciRcvHrtBt determines the approximate time in Seconds that SM LON will wait after not receiving any network information before forcing a network loss trip Pr MM 50 65 For a network loss trip to occur Pr MM 07 must be set to 1 and the network variable nciRcvHrtBt must be set to a value greater than zero Before the network loss trip is initiated the motor will be stopped using the speed control configuration properties so the overall trip time may be greater than the setting of the nciRcvHrtBt configuration property SM LON User Guide 29 Issue Number 1 www controltechniques com uonejejsu EE prr Jeolueyooy uoneliejsu 18919813 Q ES a S a 2 OCT enpon Syoolg Jeuonoun4 e0u8JeJey JANO sonsouBeiq Suel JO Messo 6 6 6 7 6 8 6 9 6 10 30 SM LON subnet ID 0 Pr MM 10 0 to 255 RO This is used as a way to identify the subnet on the network This parameter is an indication of the value set by the network configuration tool during commissioning start up it is not used to actually set the subnet ID value and can only be changed during the network commissioning start up process SM LON domain ID length Pr MM 11 This is used to indicate the n
27. AAEE EEEE AEEA IENRIS RIESEN 36 41 63 NCIMaxS peed EE 43 46 63 nciMinSpeed 43 46 63 nciNmlEteq sitchin Itu bii i t teda 43 46 63 nciNmlSpeed 43 44 45 46 63 NCIRAMPDOWNTIME sssssssseeeeeneneneneen nennen 43 44 46 63 nciRampUbpTitrie ssl tette HDI ean RAA 43 44 46 63 nciRcvHrtBt 47 63 elle Berns donostiarra aida 43 47 63 Network configuration parameters oooccinnccccnnocccconoccconnacanonencnconanonannnncnannns 58 Network Termination isise adi id i TER e ae 13 Network variables cen ei da EENG 16 36 66 Neuron ID NEUE ao NOD Node ID TE Node Object Functional Block Node Object Input Configuration Property Node Object Input Network Variable ssssseeeeenes Node Object Output Network Variables oooooniccciniccccnnocccconoccccnnocaconnncanonos Non cyclic data nviAppSpecific1 nviAppSpecific2 nviAppSpecific3 NVIDIVRESCE E nviDrvSpeedScale 43 44 45 46 47 63 nviDrvSpeedStPt AAA 42 43 44 46 47 63 AO WEE ern eet i Pre t lat teed uc deser NVIIND OSU ES nvilnDest2 Leti eMe DWIOUtSr62 gees ee du bee hne db e tees dresse Ee nviRequest eege e Geer rm ae et le ne ete edo eS bviSetupDrVP rs 2 n anii e Ces 43 50 63 nviTriggerEvent A Parr rex pna dee Pe FEN CREER EE pen Rech nvoAnlgInput1 nvoAnlgInput2 nvoAppSpecific1 nvoAppSpecific2 nvoAppSpecific3 nvoDirectionAct n
28. E DISABLE SAFE TORQUE OFF function is only available as standard on the Unidrive SP Digitax ST The Affinity and Commander SK drives do not have a secure disable feature The SECURE DISABLE function and secure input on Unidrive SP and the SAFE TORQUE OFF function of the Digitax ST meet the requirements of EN954 1 category 3 for the prevention of unexpected starting of the drive They may be used in a safety related application The system designer is responsible for ensuring that the complete system is safe and designed correctly according to the relevant safety standards eoueJeJey JAMNO sonsoubeiq mE Suel JO Messo a SM LON User Guide 5 Issue Number 1 www controltechniques com 1 4 1 5 1 6 1 7 Careful consideration must be given to the functions of the drive which might result in a hazard either through their intended behaviour or through incorrect operation due to a fault In any application where a malfunction of the drive or its control system could lead to or allow damage loss or injury a risk analysis must be carried out and where necessary further measures taken to reduce the risk for example an over speed protection device in case of failure of the speed control or a fail safe mechanical brake in case of loss of motor braking Environmental limits Instructions in the Unidrive SP User Guide Affinity User Guide and Commander SK Getting Started Guide Commander SK Technical Data Guide Digitax ST Gettin
29. alue Range 0 to 40000 RPM This output network variable is used to indicate the actual motor speed in RPM In open loop mode this value will be calculated from the drive speed output Pr 5 04 In closed loop modes this value will be the actual measured speed feedback from Pr 3 02 Table 7 48 nvoTempWrn nvoTempWrn Default N A N A SNVT Type SNVT switch Optional Syntax Value State Range N A 0 to 1 This output network variable provides two settings the first setting Value is not used by SM LON The second setting State is used to indicate a drive over temperature warning This value is taken from Pr 10 18 Table 7 49 nvoZeroSpeed nvoZeroSpeed Default N A N A SNVT Type SNVT switch Optional Syntax Value State Range N A 0 to 1 This output network variable provides two settings the first setting Value is not used by SM LON The second setting State is used to indicate if the motor is at zero speed This value is taken from Pr 10 03 Note It may be necessary to set the zero speed threshold Pr 3 05 to suit the application SM LON User Guide www controltechniques com Issue Number 1 7 4 13 VSD Functional Block CT Specific Configuration Property Table 7 50 nciEventTask uoneuojul Ajejes nciEventTask Default 0 0 SNVT Type UCPTeventTaskSelector Optional Syntax Slot Event Range 0 to 255 0 to 255 This input configuration property provides two settings the first sett
30. ameters are used to indicate the network domain ID number to a which SM LON is connected These domain parameters indicate the value set by the network configuration tool during commissioning start up they are not used to actually we set the domain ID value and can only be changed during the network commissioning a a start up process gy 6 14 SM LON load defaults E OFF 2 OFF ON o RW Pr MM 30 can be used in conjunction with Pr MM 39 to default the SM LON module to e factory settings If Pr MM 30 is ON and the host drive is defaulted the slot configuration g parameters will be over written using the SM LON default values e If the stored slot configuration parameter values in the drive are for a different type of Q Solutions Module the SM LON will trip SLx dF if installed on a Unidrive SP or Affinity a 2 or SL dF if installed on a Commander SK but no error code will be set It will over write 3 ES the slot configuration parameter values with the SM LON default values but will NOT store these values in the drive a drive save must be performed to store the values SM LON User Guide 31 Issue Number 1 www controltechniques com The full sequence of events to restore default settings for a SM LON is as follows Set Pr MM 30 to ON Unidrive SP or Affinity Set Pr MM 00 to 1233 to restore European defaults 1244 for USA defaults Commander SK Set Pr 00 29 to EUR for European defaults USA for American defaults
31. atus mask value which would be the inclusive OR of both the node object status mask value and the VSD functional block status mask value uoneuuojul uononpoau uonejlejsu JEoiueuoe The Object ID is the index number for a functional block on the device The Node Object functional block index is always zero the remaining functional blocks are numbered sequentially starting at one The Object Status fields are decoded as follows Field Size Name Supported by SM LON 24 Byte Object ID Yes 23 MSB Bi invalid id Yes 22 Bi invalid request Yes 21 Bi disabled Yes 20 Bi out of limits No uoneliejsu 18913981 Q amp a S a 2 19 Bi open_circuit No 18 Bi out_of_service No 17 Bi mechanical_fault No 16 Bi feedback_failure No 15 Bi over_range No SJojouJeJed 14 i under range No 13 Bi electrical fault No 12 Bi unable to measure No euoyouny 11 Bi comm_failure No 10 Bi fail_self_test No 9 Bi self_test_in_progress No Bi locked_out No manual_control No sonsouBeiq Bi in alarm Bi in override No Bi report mask eou8JeJey JAMNO Bi programming mode No Bi programming fail No 1 Bi alarm notify disabled No 0 LSB Bi reset_complete No Suel JO Hesso LEO The invalid id and invalid request bits will not be reported as being supported when the RQ REPORT MASK command is used in the nviRequest enquiry thi
32. ault values were loaded Invalid configuration parameters This trip will occur if the SM LON option is installed in a Unidrive SP configured in regen mode Network loss See section 6 5 SM LON network loss trip on page 29 No valid fieldbus menu data available in the module to download to the drive The user may not have saved any data or the data save may not have completed successfully The option module has overheated SM LON User Guide Issue Number 1 Software fault 61 www controltechniques com uonejlejsu EE d JEoiueuoe uoneliejsu 1891981 Q ES a S a amp SJojouieJeqd SINPON Syoolg Jeuonoun4 eouaJejey JNO sonsoubeiq Suel JO Messo 9 1 Complete parameter reference The table below lists all the SM LON set up parameters that are required to configure the module Table 9 1 SM LON parameter reference Parameter Default Cross reference Pr MM 01 401 Section 6 1 on page 28 Module ID code SM LON 401 Pr MM 02 Section 6 2 on page 28 Option module firmware version Pr MM 03 0 Section 6 3 on page 28 Node ID Pr MM 06 0 Section 6 4 on page 29 Option module diagnostic information Pr MM 07 0 Section 6 5 on page 29 Network loss trip Pr MM 10 0 Section 6 6 on page 30 Subnet ID Pr MM 11 0 Section 6 7 on page 30 Domain ID length Pr MM 12 0 Section 6 8 on page 30 Domain ID byte 1 Pr MM 13 0 Section 6 9 on page 30 Domain ID byte 2 Pr MM 14 0 Section 6 11 on page 31 D
33. byte3 0 This will be set to a value of zero byte4 0 This will be set to a value of zero byte5 0 This will be set to a value of zero byte6 0 This will be set to a value of zero Sequence Length 1 byte This will be incremented by one for each nvoAlarm2 update and will wrap around to zero after 255 www controltechniques com SM LON User Guide Issue Number 1 nvoAlarm2 Default N A SNVT Type SNVT alarm 2 Optional Syntax Description Alarm_Type Priority Time Sequence Description Length 22 bytes These bytes are ASCII coded string characters and will contain the trip code as defined in the relevant drive user guide or in the case of an alarm condition the alarm message If no alarm or trip condition is present the values read back in the first seven bytes will be 78 111 32 84 114 105 112 the remaining bytes will all be set to zero values this decodes as the message No Trip If a trip condition is present then the values returned will be 84 114 105 112 32 Trip followed by the drive trip code For example if an output current overload trip was present It AC trip code 20 the following values will be returned 84 114 105 112 32 50 48 this decodes as Trip 20 If an alarm condition is present an appropriate message will be returned Drive trip messages will take priority over any alarm condition currently present 7 4 A Node Object Input Configuration Proper
34. chniques com SM LON User Guide Issue Number 1 Table 7 43 nvolOState nvolOState Default N A SNVT Type SNVT state Optional Syntax State Range N A This output network variable is used to indicate the status of the drive digital I O terminals This value is taken from Pr 8 20 Ajejes uoneuuojul uononpoau Table 7 44 nvoOut1 nvoOut1 Default N A SNVT Type UNVT count inc 32 Optional Syntax Byte3 Byte2 Byte ByteO Range 231 to 231 4 uonejlejsu JEoiueuoe This output network variable is used to return the value in the drive parameter specified by the output network variable nviOutSrc1 The actual value of the drive parameter is calculated as follows For values of Byte3 less than 128 positive parameter values from 0 to 231 4 value ByteO Byte1 256 Byte2 256 Byte3 2563 uoneliejsu 1891981 For values of Byte3 greater than 127 negative parameter values from 231 to 1 value Byte0 Byte1 256 Byte2 2562 Byte3 256 232 For example the value 123456789 in the drive parameter specified in nviOutSrc1 is displayed as e Byte0 235 235 1 235 g Byte1 50 50 256 12800 SS Byte2 164 164 256 10747904 y a Byte3 248 248 256 4160749568 3 2 ao o Value 235 12800 10747904 4160749568 22 123456789 Table 7 45 nvoOut2 nvoOut2 Default N A SNVT Type UNVT count inc 32 Optional Syntax Byte
35. cks What is a functional block A functional block represents a collection of network variables and configuration properties on a device that perform a related function For example a digital input device with four input switches contains one functional block for each switch A functional block is similar in appearance and usage to function blocks used in PLC programming Each functional block contains a series of variables used as network data links Network Variables and another series of variables used to configure the device Configuration Properties Network variables Network variables are objects within the functional block and provide the mechanism for devices to send and receive data over the network There are two types of network variables standard network variable SNVT and user defined UNVT Each functional block contains a series of network variables these variables can be either input or output variables Input variables names are prefixed nvi Network Variable Input and output variables names are prefixed nvo Network Variable Output Configuration properties Configuration properties are user configurable values which define the behaviour of a device They are stored in the non volatile memory of the device and normally only set once during device commissioning There are two types of configuration properties standard configuration properties SCPT and user defined configuration properties UCPT A
36. d this network variable is better suited for run time usage than the configurable parameter input variables nviln1 or nviln2 Table 7 24 nviDrvReset nviDrvReset Default 0 0 0 SNVT Type SNVT switch Optional Syntax Value State Range 0 to 100 0 0 to 1 This input network variable provides two settings the first setting Value will be ignored by SM LON The second setting State is used to reset the drive a transition from 0 to 1 will trigger a drive reset using Pr 10 38 Table 7 25 nvilnDest1 nvilnDest1 Default 1821 SNVT Type SNVT count Optional Syntax Value Range 0 to 65535 This input network variable is used to specify a drive parameter to be used as a destination parameter for the input network variable nviln1 The value in this network variable should be the drive menu number multiplied by 100 plus the parameter number e g to use Pr 18 30 as the destination parameter this network variable should be set to a value of 1830 the value of the input network variable nviln1 will then be written to Pr 18 30 Note Care must be taken when selecting the destination parameter to ensure that the full input value of nviln1 can be written correctly Table 7 26 nvilnDest2 nvilnDest2 Default 1822 SNVT Type SNVT count Optional Syntax Value Range 0 to 65535 This input network variable is used to specify a drive parameter to be used as a destination parameter for the input network variable nviln2
37. d plug ins when re opening this drawing Continue with advanced options sua JO Hesso SM LON User Guide 21 Issue Number 1 www controltechniques com After adding all plug ins to be registered click the Finish button and the LonMaker network integration tool will create the network drawing and register all libraries and plug ins as necessary The Visio drawing window will then be displayed and each network device can then be added by selecting the appropriate icon shape and dragging it into the drawing To add the SM LON module the standard Device shape should be used as shown in Figure 5 6 Figure 5 6 Adding SM LON device E Test Microsoft Visio Edi View Insert Format Tools Shape LonMaker Window Help Type a question for help RICE PAU zit BI Network Ex lorer E Subsystem 1 LNS Network Interface Shapes ox Search for Shapes Type your search here v E LonPoint2 E LonPoint Shapes 3 0 E LonMaker Basic Shapes Page 1 1 Once placed in the drawing the New Device Wizard window is displayed and the required device name should be entered where indicated If the device is to be commissioned during this procedure then the Commission Device option should be selected as shown in Figure 5 7 on page 23 22 SM LON User Guide www controltechniques com Issue Number 1 Figure 5 7 New device wizard New Device Wizard uoneuuojul ejes E
38. d to transmit the service pin message to the configuration tool for the purposes of configuring the SM LON module on the network LE This parameter reverts to OFF after sending the service pin message The transition 5 4 from OFF to ON may not be visible due to the update rate of the display Setting up a LonWorks network This section is intended to provide a generic guide for setting up the SM LON module on a simple LonWorks network Due to the many different types and manufacturers of LonWorks devices it is not possible to provide detailed information for all devices the LonPoint devices used in this section are manufactured by the Echelon Corporation LT Although the Echelon Corporation is mentioned in this document this does not represent an endorsement of any particular device or device manufacturer other devices may be used When configuring a LonWorks network each device must be configured separately using a network configuration tool such as the LonMaker Integration Tool other configuration tools may also be used Before configuring the network devices it is important to check the network cabling and termination are correct If the cabling or installation is not correct then the stability and reliability of the network may be compromised For further information on network cabling see section 4 3 Network cabling on page 13 The network may also not operate correctly if a network segment is incorrectl
39. e host drive MM xx This parameter will automatically reset to OFF after completion During this operation network communications will be stopped The transition of MM 32 from OFF to ON may not be visible on the drive display due to 32 the update rate of the display SM LON User Guide www controltechniques com Issue Number 1 6 17 6 18 SM LON restore parameters SM LON restore parameters OFF OFF ON RW Setting this parameter to ON will change the operating parameters for the SM LON module by copying the configuration from the backup copy in the SM LON module During this operation network communications will be stopped This will not save the current operating menu of the drive Pr MM xx a drive save must be performed to achieve this SM LON initialise drive reference selectors SM LON initialise drive reference selectors OFF OFF ON RW This parameter provides an easy method for the user to configure the appropriate drive reference selectors required for correct operation of the LonWorks VSD functional profile The following parameters will be changed Pr 1 10 1 bipolar reference enable Pr 1 14 3 select preset reference specified by 311 15 Pr 1 15 1 select preset reference 1 111 21 Pr 2 02 1 ramp enable Pr 2 10 9 acceleration rate selector Pr 2 20 9 deceleration rate selector Pr 3 13 0 enable frequency slaving Pr 4 11 0 torque m
40. e topology network architecture and supports the TP FT 10 network topology with a data rate of 78kBit second The use of free topology means that the network may consist of bus ring or star wye connected devices It is recommended that bus connections are used because of the greater network segment length allowed It is recommended that the network cable used should be one listed in Table 4 2 If the cable used is not one of the recommended cables the network reliability may be compromised and technical support may be limited A good quality installation is vital for a reliable system cabling issues are the single biggest cause of network down time Ensure cabling is correctly routed wiring is correct and connectors are correctly installed Table 4 2 SM LON recommended cables Cable Type Diameter mm Area mm TIA 568A Category 5 cable 24 0 5 0 2 Belden 8471 PVC jacket cable 16 1 3 1 3 Belden 85102 Tefzel jacket cable 16 1 3 1 3 Level IV cable 22 0 65 0 33 JY st 2x2x0 8 20 4 0 8 0 5 4 4 Maximum network length The main restriction imposed on cabling is the length of a single segment of cable as detailed in Table 4 3 If distances greater than this are required then a router or repeater must be used Table 4 3 Maximum network segment lengths Cable Type Maximum segment length metres TP FT 10 Free TIA 568A Category 5 cable Belden 8471 PVC jacket cable Belden 85102 Tefzel jacket cable Level IV cable JY st 2x2x0 8
41. entTask nciNmiSpeed nciRampDownTime nciRampUpTime nciSndHrtBt SM LON supports the two mandatory network variables nviDrvSpeedStPt and nvoDrvSpeed along with thirty four optional network variables and ten configuration properties These network variables and configuration properties are listed in Section 7 4 6 and Section 7 4 7 on page 43 42 SM LON User Guide www controltechniques com Issue Number 1 7 4 6 Standard VSD network variables and configuration properties nviDrvSpeedScale SNVT nviDrvSpeedStPt SNVT mandatory nvoDrvCurnt SNVT nvoDrvPwr SNVT nvoDrvRunHours SNVT nvoDrvSpeed SNVT mandatory nvoDrvVolt SNVT nciDrvSpeedScale SCPT nciMaxSpeed SCPT mandatory nciMinSpeed SCPT mandatory nciNmlFreq SCPT mandatory nciNmlSpeed SCPT mandatory nciRampDownTime SCPT mandatory nciRampUpTime SCPT mandatory nciRcvHrtBt SCPT nciSndHrtBt SCPT mandatory uonejlejsu EE d Jeolueyooy uoneliejsu 1891981 7 4 7 Control Techniques specific VSD network variables and configuration properties In addition to the standard network variables and configuration properties the following Control Techniques specific variables and properties are available in the VSD functional block nviAppSpecific1 SNVT nviAppSpecific2 SNVT nviAppSpecific3 SNVT nviDrvReset SNVT nvilnDest1 SNVT nvilnDest2 SNVT nviln1 UNVT nviln2 UNVT nv
42. ermination resistors installed Table 4 5 illustrates the configuration of the switches for a free topology network uonejejsu Jeolueyooy Table 4 5 SM LON termination resistor switch configuration free SW1 switch settings Description Both termination resistors not connected Installed on other device uoneljejsul LAMPE Q amp a S a 2 One 56 Q resistor connected One already installed on another device Sisjeueied jeuonoun4 Two 56 Q resistors connected No others installed on segment sonsouBeiq e0u8JeJ8y JANO SUL JO Messo SM LON User Guide 15 Issue Number 1 www controltechniques com 5 1 16 Getting Started LonWorks network overview To provide interoperability between different manufacturers the LonWorks network uses pre defined functional blocks Each of these profiles contain a number of input and output network variables and configuration properties SM LON supports the Node Object and Variable Speed Motor Drive VSD functional block both of these functional blocks are explained in Chapter 7 Functional Blocks on page 36 There are two types of network variables these are Standard Network Variable Type SNVT and User defined Network Variable Type UNVT The network variables are used to transfer the data between devices the outputs of a device are connected to the inputs of another device The configuration properties are generally set once d
43. formation sse S SM FON domaimliD tee ee E 8 SM LON domain ID length SM LON error codes E 2 SM LON firmware version sss 3 E SM LON initialise drive reference Selectors sseesssessese 9 SM LON load defaults ederent tenerent nenne SM LON module front view SM LON Module connector SM LON module ID code coooooooccccccnocococcconocononononononcnonononnnonnnccnnnnnnnnnnos SM EON module layout EE SM LON User Guide 69 Issue Number 1 www controltechniques com SM LON network loss trip oocoooccccnnocccnocccccnoccanononcnnonancononancn nana nnnnannnno 29 59 SM EON Node ID sei ise sel a Seal in E ine re Ets ie run 28 58 SM LON operating status codes ooococococccconoccccnnancconancncnnnananonancnnno 18 29 60 SM LON option module error status ssssseeee 35 61 SM LON re initialise SM LON restore parameters cocccccnoccccccocccccooconcnnncanononcnnononcnnnn ono nnnnnncnannnnnnns 33 SM LON save option parameters sssssssssseeee 32 SM LON serial number sns iubii eee teda 33 SM LON subnet ID se 90 59 SM LON transmit service pin message SM LON unconfigure option sssssssesseseeeeneneeenneennnn SMZEON Wink eet cero EE Solutions Module identification Standard Configuration Property Type SCPT eese 16 Standard Network Variable Type SNVT
44. g Started Guide and Digitax ST Technical Data Guide regarding transport storage installation and use of the drive must be complied with including the specified environmental limits Drives must not be subjected to excessive physical force Compliance with regulations The installer is responsible for complying with all relevant regulations such as national wiring regulations accident prevention regulations and electromagnetic compatibility EMC regulations Particular attention must be given to the cross sectional areas of conductors the selection of fuses or other protection and protective ground connections The Unidrive SP User Guide Affinity User Guide Commander SK Technical Data Guide and Digitax ST Technical Data Guide contain instructions for achieving compliance with specific EMC standards Within the European Union all machinery in which this product is used must comply with all relevant safety and EMC directives applicable to the installation Motor Ensure the motor is installed in accordance with the manufacturer s recommendations Ensure the motor shaft is not exposed Standard squirrel cage induction motors are designed for single speed operation If it is intended to use the capability of the drive to run a motor at speeds above its designed maximum it is strongly recommended that the manufacturer is consulted first Low speeds may cause the motor to overheat because the cooling fan becomes less effective The motor
45. gment would each have a 56 O termination resistor installed Figure 4 3 Bus connected system a dio rs gt gt LonWorks network Control Techniques recommends that for a bus connected system the SM LON module should have one resistor selected if it is the last device on the segment if it is not the last device on the segment then no resistors should be selected This is illustrated in Table 4 4 Table 4 4 SM LON termination resistor switch configuration bus Switch setting with SM LON module installed end of segment middle of segment Ow FN Os Q Os One 56 Q resistor selected One 56 Q resistor selected No resistors selected 14 SM LON User Guide www controltechniques com Issue Number 1 4 5 2 Free topology A free topology system has virtually no restrictions on the topology of architecture used The main types of topology are bus star wye tree and ring all of these in any combination are acceptable methods of connection in a free topology network uoneuuojul Ajejes In this type of architecture the termination resistors may be installed to any single device or any two devices in the segment but there must be a total of two resistors 56 Q each installed on each segment uononpoau The SM LON module is equipped with two resistors 56 O each both of which are individually selectable using the selector switch this allows the SM LON module to be the only network device with t
46. gure 2 2 SM LON label The letter indicates the year and the number indicates the week number within the year in which the Solutions Module was built The letters go in alphabetical order starting with the letter A for 1991 B for 1992 C for 1993 etc Example A date code of Q35 would correspond to week 35 of year 2007 SM LON User Guide 9 Issue Number 1 www controltechniques com uoneuuoJul Majes VOTE Uon2pnponut IEOUELDeIN uoneliejsu jeoujoe Q D ES 3 a a E a o EI SJojouieJeqd SINPON Syoolg Jeuonoun4 souasajay JNO sonsouBeiq sua JO Hesso 2 3 2 4 10 Product conformance SM LON is a LonMark Certified Product and has been fully tested to conform to the interoperability guidelines from LonMark International Conventions used in this guide The configuration of the host drive is by means of menus and parameters A menu is a logical collection of parameters that have similar functionality The SM LON module also has parameters but these are mainly for indication only and the configuration is done by the network configuration tool software application In the case of a Solutions Module the parameters will appear in menu 15 16 or 17 depending on which slot the option module is installed in The menu is determined by the number before the decimal point The method used to determine the menu or parameter is as follows Prxx 00 signifies any me
47. hours This value is taken from Pr 6 22 and Pr 6 23 and converted into hours Table 7 10 nvoDriveSpeed uoneliejsu 1291981 nvoDriveSpeed Default N A SNVT Type SNVT lev percent Mandatory Syntax Value Range 163 84 to 163 8396 This output network variable provides an indication of the drive speed feedback This value is calculated from Pr 5 03 for open loop mode or from Pr 3 02 if the drive is in either closed loop or servo mode The relevant parameter value is converted into a percentage of the nominal motor speed as specified in the nciNmlSpeed configuration property Q ES a S a a Table 7 11 nvoDrvVolt SJojouleJed nvoDrvVolt Default N A SNVT Type SNVT volt Optional Syntax Value Range 0 to 3276 6 V This output network variable provides an indication of the drive output voltage in 0 1V units This value is taken from Pr 5 02 euoyouny 7 4 10 VSD Functional Block Standard Configuration Properties sonsouBeiq Table 7 12 nciDrvSpeedScale nciDrvSpeedScale Default 096 SNVT Type SNVT lev percent Optional Syntax Value Range 163 840 to 163 830 This configuration property provides the default value for the nviDrvSpeedScale input network eoueJ9Jey JAMNO variable This is provided in the event of the network variable not being connected to an appropriate device output This value will also be used to update nviDrvSpeedScale if it is has not been updated for a period
48. iOutSrc1 SNVT nviOutSrc2 SNVT nviSetupDrvPars SNVT nviTriggerEvent SNVT nvoAnlgInput1 SNVT nvoAnlgInput2 SNVT nvoAppSpecific1 SNVT nvoAppSpecific2 SNVT nvoAppSpecific3 SNVT nvoDirectionAct SNVT nvoDrvHealthy SNVT nvoDrvRunning SNVT Q ES a g a 2 SJojouieJeqd SInpoiN DEET euoyouny eouaJejey JANO sonsouBeiq Suel JO Hesso SM LON User Guide 43 Issue Number 1 www controltechniques com nvoEmergOvrStat SNVT nvoFregAct SNVT nvolOState SNVT nvoOut1 UNVT nvoOut2 UNVT nvoOverloadWrn SNVT nvoSpeedActRpm SNVT nvoTempWrn SNVT nvoZeroSpeed SNVT nciEventTask UCPT The VSD functional block network variables consist of fourteen input variables twenty three output variables and ten configuration properties these are described below 7 4 8 VSD Functional Block Standard Input Network Variables Table 7 5 nviDrvSpeedScale Default See nciDrvSpeedScale SNVT Type SNVT_lev_percent Optional Syntax Value Range 163 84 to 163 83 This input network variable provides the scaling factor which is applied to the value of the nviDrvSpeedStPt speed reference before it is converted to RPM nviDrvSpeedScale Table 7 6 nviDrvSpeedStPt nviDrvSpeedStPt Default N A SNVT Type SNVT switch Mandatory Syntax Value State Range 0 to 100 0 0 to 1 This input network variable provides two settings the first sett
49. iguring the SM LON module however for specific details of other devices the documentation for those devices should be consulted Jeuonoun4 LT Creating a LonWorks network using Microsoft Visio and configuring other devices for use on the network is beyond the scope of this document please refer to the appropriate documentation for additional information souasejay JANO sonsouBeiq sua JO Hesso SM LON User Guide 27 Issue Number 1 www controltechniques com 6 1 6 2 6 3 28 Module Parameters The basic menu parameters can be accessed through the slot menu in the drive Pr MM xx where MM is the menu for SM LON in the host drive and xx is the parameter number The basic menu parameters may also be accessed using menu 60 i e Pr 60 xx SM LON module ID code SM LON module ID code 401 SM LON RO The module ID code indicates the type of module installed in the slot corresponding to menu MM This is useful for checking the module is of the correct type The ID code for SM LON is 401 SM LON firmware version SM LON firmware major version mm mm N A 00 00 to 99 99 RO SM LON firmware minor version nn N A 0 to 99 RO The full version of the SM LON firmware can be read from the two parameters above The full version is assembled by combining the major version mm mm and the minor version nn as follows mm mm nn SM LON node ID 0 0 to 127 RO
50. ing S ot specifies the drive slot number of the SM Applications or SM Applications Lite module which contains the event task to be triggered by the network variable nviTriggerEvent The second setting Event specifies the event task number to be triggered of the SM Applications or SM Applications Lite module installed in the slot specified by Slot Slot Specifies to use the applications module installed in the lowest available slot position E g If two applications modules are installed in slots 2 and 3 then this will specify to use the module installed in slot 2 uononpoau uonejlejsu Jeolueyooy Specifies the module installed in slot 1 Specifies the module installed in slot 2 uoneliejsu 1291981 Specifies the module installed in slot 3 Event Specifies to use the Event task of the applications module installed in the slot position specified by Slot Event 0 Specifies to use the Event1 task of the applications module installed AL sa in the slot position specified by Slot Q amp a S a a Specifies to use the Event2 task of the applications module installed SES in the slot position specified by Slot Specifies to use the Event task of the applications module installed in the slot position specified by Slot Note If an SM Applications module is not installed in the specified slot position then no event task will be triggered Event 3 SJojouJeJed
51. ing Value is the speed setpoint which can be in the range 0 to 100 of the setting of nciNmISpeed The second setting State is used to start and stop the drive State 0 The drive will decelerate to zero speed using the nciRampDownTime configuration property value Sets bit 5 Run of the drive control word Pr 6 42 to 0 State 1 The drive will accelerate to the specified speed Value using the nciRampUpTime configuration property value Sets bit 5 Run of the drive control word Pr 6 42 to 1 7 49 VSD Functional Block Standard Output Network Variables Table 7 7 nvoDrvCurnt nvoDrvCurnt Default N A SNVT Type SNVT_amp Optional Syntax Value Range 0 to 3276 6 A This output network variable provides an indication of the drive output current in 0 1A units This value is taken from Pr 4 01 44 SM LON User Guide www controltechniques com Issue Number 1 Table 7 8 nvoDrvPwr uoneuuojul Ajejes nvoDrvPwr Default N A SNVT Type SNVT power kilo Optional Syntax Value Range 0 to 6553 4 kW This output network variable provides an indication of the drive output power in 0 1kW units This value is taken from Pr 5 03 uononpoau Table 7 9 nvoDrvRunHours nvoDrvRunHours Default N A SNVT Type SNVT time hour Optional Syntax Value Range 0 to 65534 Hours uonejejsu jEoiueuoe This output network variable provides an indication of the total drive running duration in
52. le 7 28 on page 49 UNVT No VSD nput 5 nviOutSrc1 Table 7 29 on page 50 SNVT No VSD nput H nviOutSrc2 Table 7 30 on page 50 SNVT No VSD nput 2 nviSetupDrvPars Table 7 31 on page 50 SNVT No VSD nput y nviTriggerEvent Table 7 32 on page 50 SNVT No VSD nput 3 nvoAniginput1 Table 7 33 on page 51 SNVT No VSD Output nvoAniginput2 Table 7 34 on page 51 SNVT No VSD Output Q nvoAppSpecific1 Table 7 35 on page 51 SNVT No VSD Output si E nvoAppSpecific2 Table 7 36 on page 51 SNVT No VSD Output 9 nvoAppSpecific3 Table 7 37 on page 51 SNVT No VSD Output nvoDirectionAct Table 7 38 on page 52 SNVT No VSD Output nvoDrvHealthy Table 7 39 on page 52 SNVT No VSD Output nvoDrvRunning Table 7 40 on page 52 SNVT No VSD Output SM LON User Guide 63 Issue Number 1 www controltechniques com 64 Table 9 2 Network variables reference Variable name Cross reference Type Mandatory Object Mode nvoEmergOvrStat Table 7 41 on page 52 SNVT No VSD Output nvoFreqAct Table 7 42 on page 52 SNVT No VSD Output nvolOState Table 7 43 on page 53 SNVT No VSD Output nvoOut1 Table 7 44 on page 53 SNVT No VSD Output nvoOut2 Table 7 45 on page 53 SNVT No VSD Output nvoOverloadWrn Table 7 46 on page 54 SNVT No VSD Output nvoSpeedActRpm Table 7 47 on page 54 SNVT No VSD Output nvoTempWrn Tab
53. le 7 48 on page 54 SNVT No VSD Output nvoZeroSpeed Table 7 49 on page 54 SNVT No VSD Output nciEventTask Table 7 50 on page 55 UCPT No VSD Input www controltechniques com SM LON User Guide Issue Number 1 10 Glossary Of Terms Address This is the unique network identification given to a networked device to allow communication on a network When a device sends or receives data the address is used to determine the source and the destination of the message Bit A binary digit this may have the value of 1 or 0 Byte A collection of 8 binary digits that collectively store a value This may be signed or unsigned Configuration properties User configurable values which define the behaviour of a device Control word A collection of binary digits that are used to control the drive Features typically include directional controls run controls and other similar functions Cyclic implicit or polled data Data that is transmitted at regular intervals over the network Sometimes referred to as Implicit data or Polled data Data rate Determines the communication speed of the network the higher the value the more data can be sent across the network in the same time period Device A piece of equipment connected to a network this may be any type of equipment including repeaters hubs masters or slaves DIP switch An electronic switch packaged as a group of switches in a standard dual in line
54. le is better suited for run time usage than the configurable parameter output variables nvoOut1 or nvoOut2 eouaJejey JAMNO Suel JO Messo SM LON User Guide 51 Issue Number 1 www controltechniques com Table 7 38 nvoDirectionAct nvoDirectionAct Default N A N A SNVT Type SNVT switch Optional Syntax Value State Range N A 0 to 1 This output network variable is used to indicate the direction in which the motor is running The first setting Value is not used by SM LON The second setting State is used to indicate the motor direction a value of 0 indicates the forward direction reverse direction This value is taken from Pr 10 14 Table 7 39 nvoDrvHealthy nvoDrvHealthy and a value of 1 indicates the Default N A N A SNVT Type SNVT switch Optional Syntax Value State This output network variable is used to indicate the healthy sta Range N A 0 to 1 e of the drive The first setting Value is not used by SM LON The second setting State is used to indicate the drive healthy state a value of 0 indicates the drive is not OK and a value of 1 indicates the drive is OK This value is taken from Pr 10 01 Table 7 40 nvoDrvRunning nvoDrvRunning Default N A N A SNVT Type SNVT switch Optional Syntax Value State Range N A 0 to 1 This output network variable is used to indicate if the drive output is active The first setting Val
55. le should be the drive menu number multiplied by 100 plus the parameter number e g to use Pr 18 30 as the source parameter this network variable should be set to a value of 1830 the value of Pr 18 30 will then be written to the network output variable nvoOut1 Table 7 30 nviOutSrc2 nviOutSrc2 Default 1812 SNVT Type SNVT count Optional Range 0 to 65535 This input network variable is used to specify a drive parameter to be used as the source for the output network variable nvoOut2 The value in this network variable should be the drive menu number multiplied by 100 plus the parameter number e g to use Pr 18 30 as the source parameter this network variable should be set to a value of 1830 the value of Pr 18 30 will then be written to the network output variable nvoOut2 Syntax Value Table 7 31 nviSetupDrvPars nviSetupDrvPars Default 0 0 0 SNVT Type SNVT switch Optional Range N A 0 to 1 This input network variable provides an easy method of configuring the drive reference selectors for use on the LonWorks B network The first setting Value will be ignored by SM LON The second setting State is used to configure the reference selectors in the drive the configuration changes will only be initiated upon a transition from 0 to 1 in the value of State Syntax Value State The following drive parameters will be changed Pr 1 10 1 bipolar reference enable Pr 1 14 3 select preset reference
56. lethal Extreme care is necessary at all times when working with or adjacent to the drive Specific warnings are given at the relevant places in this User Guide g Ed El a o S a 9 EI 1 3 System design and safety of personnel The drive is intended as a component for professional incorporation into complete equipment or a system If installed incorrectly the drive may present a safety hazard SJojouleJed The drive uses high voltages and currents carries a high level of stored electrical energy and is used to control equipment which can cause injury Close attention is required to the electrical installation and the system design to avoid hazards either in normal operation or in the event of equipment malfunction System design installation commissioning start up and maintenance must be carried out by personnel who have the necessary training and experience They must read this safety information and this User Guide carefully The STOP and SECURE DISABLE SAFE TORQUE OFF functions of the drive do not isolate dangerous voltages from the output of the drive or from any external option unit The supply must be disconnected by an approved electrical isolation device before gaining access to the electrical connections With the sole exception of the SECURE DISABLE SAFE TORQUE OFF function none of the drive functions must be used to ensure safety of personnel i e they must not be used for safety related functions The SECUR
57. log Utility uoneliejsu 89110913 Once these files have been added to the database the SM LON module can be commissioned on the network E amp 3 a o S a bd a The network configuration tool LonMaker is used to configure the SM LON module on the LonWorks network after running the LonMaker programme a window similar to the one shown in Figure 5 1 is displayed d as Figure 5 1 Open network manager 32 oO Echelon r LonMaker tm Design Manager EI O ES id General Options 25 8 amp New Network 89 S ECHELON Existing Network 2 D Lon Ma ker 3 E 1 Drawing Directory lt none gt L g Drawing Name none mi 2 ZS o Database Name snone gt 2 L2 o c E Eu LA amp Q E LNSJ POWERED RUM E ECHELON ee e Settings Subject to termz of licenze agreement Drawing Base Path C LmDrawings Add Copyright 1936 2003 Echelon Corp x A All Rights Reserved sua JO Hesso Exit Help Click the New Network button to create a new network configuration Microsoft Visio should be launched and the window in Figure 5 2 should be displayed SM LON User Guide 19 Issue Number 1 www controltechniques com Figure 5 2 New network wizard Network Wizard Naming Network Name Browse Recover database from network Network Database Path C LmiDbiSM_LON Browse Network Drawing Path CmiDrawings SM_LONSM_LON vsd Browse Ne
58. mmunication is possible to SM LON for more information on the wink function see section 6 21 SM LON wink on page 34 The Service LED is used to indicate whether or not the SM LON module is commissioned on the network for more information on configuring SM LON see section 5 3 Setting up the SM LON module on page 17 Figure 8 1 SM LON module connections and indications Spade connector O Wink LED Es Q Service LED n Shield Termination Switches SM LON User Guide www controltechniques com Issue Number 1 8 2 Diagnostic flow chart SM LON needs to be commissioned on the network See chapter 5 Initialisation failure Check drive is not configured in regen mode Configuration parameter error Check configuration parameters and variabes Software error Change SM LON module and retry SM LON initialising change SM LON module and retry SM LON User Guide Issue Number 1 E N 7 BN Y Is Pr MM 06 gt N j SE If problem persists 4 Is Pr MMLO6 8 v N M Thereis communication with SM LON Y Check devices on the same domain and subnet are correctly configured www controltechniques com 57 uoneuuojul Ajejes VOTE uononpoau JEoiueuoe uoneliejsu 12919813 Q ES a S a 2 39u 134 Y4 YANO sonsouBeiq kuomu sisjeueled Suel JO Mes
59. n SM LON provides a single 3 way screw connection to a LonWorks network In addition to the 3 way screw connector a grounding tag is supplied for supplementary bonding The 3 way screw terminals are double insulated to provide electrical isolation from live components in the drive SM LON also provides 2 diagnostic LEDs for status and information purposes The function of each LED is described in Table 8 1 on page 56 The network termination resistors are selected by means of two DIP switches each Switch connects a 56 Q resistor across the network data lines The front view of the SM LON module is shown in Figure 4 1 Figure 4 1 SM LON module front view The terminal connections termination resistor selector switches and LED indicators are illustrated in Figure 4 2 Figure 4 2 SM LON module connections and indications O Wink LED Service LED n Shield Termination Switches Table 4 1 SM LON module connector Terminal Description Network Data Line A Network Data Line B Shield Module grounding SM LON is supplied with a grounding tag on the module this grounding tag MUST be connected to the closest possible grounding point using the minimum length of cable This will greatly improve the noise immunity of the system SM LON User Guide www controltechniques com Issue Number 1 4 3 Network cabling SM LON uses a fre
60. ning the drive will be stopped using the VSD profile parameter settings when the drive has stopped it will then be inhibited This will be done using the drive control word Pr 6 42 This drive state will be forced and it will prevent the drive from being run over the network The VSD output variables will also be prevented from being propagated to the network it will still be possible to poll them RQ UPDATE STATUS Object Request 2 This code will request the status of the specified functional block to be sent to the nvoStatus output network variable If the node object functional block was specified then the status returned would be the inclusive OR of both the node object status and the VSD functional block status See nvoStatus network variable RQ REPORT MASK Object Request 5 This code will result in a status mask value to be sent to the nvoStatus output network variable The status mask value shows all of the supported status bits for the specified device See nvoStatus network variable If the node object functional block was specified then the status mask value returned would be the inclusive OR of both the node object status mask value and the VSD functional block status mask value RQ ENABLE Object Request 7 When this command is applied to the node object only the node object network variables will be propagated over the network When this command is applied to the VSD functional block the behaviou
61. ns Module s powered up allowing the SM LON network to continue communicating when the main AC supply is removed What Is LonWorks The LON in LonWorks is an acronym of Local Operating Network Its major application is in building management and HVAC networks LonWorksQ is intended primarily for distributed applications where there is no master or PLC controlling the network data flow Each device on the LonWorks network is linked to other devices using network variables these network variables can be either input or output variables the output network variable of one device is linked to the input network variable of another device Network variable values are updated at pre set intervals or whenever polled by a device The network links are configured using a network configuration tool this configuration tool may then be removed after the network has been configured SM LON User Guide www controltechniques com Issue Number 1 2 2 Solutions Module identification Figure 2 1 SM LON The SM LON can be identified by 1 The label located on the underside of the Solutions Module Figure 2 2 SM LON label Solutions Module name SM LON Customer Revision and date code Rev 0 STDJ41 Ser No 3000005001 Serial number 2 The color coding across the front of the Solutions Module SM LON being pale green 2 2 1 Date code format The date code is split into two sections a letter followed by a number see Fi
62. nter Device Name Device Name sM LON uononpoau Template Name Number of Devices to Create uonejlejsu jEoiueuoe uoneliejsu 18919813 Cancel E amp 2 a o S a bd o Click the Next button to continue a window will prompt you for the location of the XIF eXternal Interface File file as shown in Figure 5 8 SINPON Figure 5 8 XIF file location SJ9jouleJed New Device Wizard Specify Device Template Current Template Device Name s Jeuonoun4 sonsouBeiq External Interface Definition Upload From Device LoadXIF File C LonWorks types User ControlT echniques Template Name SM Lon Name souasejay JANO sua JO Hesso SM LON User Guide 23 Issue Number 1 www controltechniques com Select the Load XIF option and enter the location of the appropriate XIF file to be used to interface to the device This interface file for SM LON is named SM LON XIF The location of this file is given at the start of this section After selecting the XIF file click the Next button and the network channel selection will then be displayed as shown in Figure 5 9 Figure 5 9 Network channel selection New Device Wizard Specify Device Channel Device Name SM LON C Auto Detect Specify Channel Xcvr Type TP FT 10 Name Channel 1 m Cancel Help From the drop down list box select the TP FT 10 option and click Next to continue
63. nu and parameter number 00 e PrMM xx where MM signifies the menu allocated to the solutions module this could be 15 16 or 17 on the Unidrive SP and Digitax ST 15 or 16 on the Affinity drive but will always be 15 on the Commander SK and xx signifies the parameter number SM LON User Guide www controltechniques com Issue Number 1 3 Mechanical Installation uoneuuojul ejes Before installing or removing a Solutions Module in any drive ensure the AC supply has been disconnected for at least 10 minutes and refer to Chapter 1 Safety Information on page 5 If using a DC bus supply ensure this is fully discharged before working on any drive or Solutions Module 3 1 General Installation The installation of a Solutions Module is illustrated in Figure 3 1 uononpoau Figure 3 1 Fitting a Solutions Module uoye lesu ESTERO uoneljejsu 89110913 Q D ES 3 a a E a 9 EI SINPON SJojouleJed The Solutions Module connector is located on the underside of the module 1 Push this into the Solutions Module slot located on the drive until it clicks into place 2 Note that some drives require a protective tab to be removed from the Solutions Module slot For further information refer to the appropriate drive manual eou8JeJey JAMNO sonsouBeiq route sua JO Hesso SM LON User Guide 11 Issue Number 1 www controltechniques com 4 2 12 Electrical Installation SM LON module informatio
64. ode Object Input Network Variable Table 7 1 nviRequest nviRequest Default N A SNVT Type SNVT obj request Mandatory Syntax Object ID Object Request This input network variable provides the mechanism to request an operation or a mode for a functional block within a device The request consists of an object identifier Object ID followed by an object request code Object Request The Object ID is the index number for a functional block on the device The Node Object functional block index is always zero the remaining functional blocks are numbered sequentially starting at one The available values for the Object Request code are as follows RQ NORMAL Object Request 0 This code will return the device to the normal operating state If the device was disabled then this code will clear the disabled state If this request is made to the node object all of the functional blocks including the node object will be returned to their normal operating states RQ DISABLED Object Request 1 When this code is applied to the node object it will be applied to the VSD functional block automatically and the node object output variables will not be propagated to the network the nvoStatus and nvoAlarm2 variables will not be disabled When this code is applied to the VSD functional profile the behaviour will be as follows If the drive is not currently running the drive will be inhibited If the drive is run
65. ode selector speed control Pr 6 01 1 stop mode ramped stop Pr 6 43 1 control word enable When all parameters have been set Pr MM 34 will revert to OFF LESSE This parameter performs the same function as the input network variable 6 19 SM LON User Guide 33 nviSetupDrvPars with the exception that it does not save the parameters this should be done by the user SM LON serial number N A 0 to 9999999 R This parameter will display the seven least significant decimal digits of the neuron ID The neuron ID is a 48 bit serial number of the LonWorks transceiver chip in the SM LON option module This number is hard coded into the chip by the manufacturer Issue Number 1 www controltechniques com uonejlejsu E prr Jeolueyooy uoneliejsu 18919813 Q ES a S a 2 coussejeu nD sonsouBeId vie s1ojoureJeg Suel JO Hesso 6 20 SM LON transmit service pin message SM LON transmit service pin message OFF OFF ON RW This parameter is used to transmit the service pin message to the configuration tool for the purposes of configuring the SM LON module on the network LE This parameter reverts to OFF after sending the service pin message The transition 6 21 6 22 from OFF to ON may not be visible due to the update rate of the display SM LON wink OFF OFF ON RW Pr MM 37 will indicate ON if the module has received the LonWorks wink message and
66. odes Pr MM 06 Description Running states Indicates the total number of messages SM LON has detected per second 0 Module commissioned but no network messages detected The Solutions Module has initialised correctly but has not been commissioned on the network Initialisation failure one possible cause of initialisation failure is the E drive is configured in regen mode 3 Invalid configuration parameters 4 Software error 8 The drive interface is being initialised SM LON User Guide www controltechniques com Issue Number 1 If the SM LON module does not initialise correctly when the drive is powered up remove the power from the drive wait for the under voltage UU trip to disappear and re apply the power if the problem persists then the SM LON module should be changed 8 5 2 SM LON option module error status SM LON option module error status 0 0 to 255 R If an error occurs the reason for the error is written to this parameter and the drive may produce a slot error A value of 0 indicates that the module has not detected an error For a list of SM LON error codes see Table 8 3 CO This parameter is reset to 0 if SM LON is reset Table 8 3 SM LON error codes Pr MM 50 Error Description No fault present Incorrect non volatile storage At least one configuration property was incorrectly formatted or corrupt Configuration property def
67. omain ID byte 3 Pr MM 15 0 Section 6 11 on page 31 Domain ID byte 4 Pr MM 16 0 Section 6 12 on page 31 Domain ID byte 5 Pr MM 17 0 Section 6 13 on page 31 Domain ID byte 6 Pr MM 30 OFF Section 6 14 on page 31 Load option defaults Pr MM 31 OFF Section 6 15 on page 32 Save option parameters Pr MM 32 OFF Section 6 16 on page 32 Request to re initialise Pr MM 33 OFF Section 6 17 on page 33 Restore parameters from option module Pr MM 34 OFF Section 6 18 on page 33 Initialise drive reference selectors Pr MM 35 Section 6 19 on page 33 Option module serial number Pr MM 36 OFF Section 6 20 on page 34 Transmit service pin message Pr MM 37 OFF Section 6 21 on page 34 Wink active Pr MM 38 0 Section 6 22 on page 34 Unconfigure option module Pr MM 39 0 Section 6 23 on page 35 Default configuration property storage Pr MM 50 0 Section 6 24 on page 35 Option module error status Pr MM 51 Section 6 2 on page 28 Option module firmware sub version 62 SM LON User Guide Quick Reference www controltechniques com Issue Number 1 9 2 Complete network variables reference SG Table 9 2 lists the network variables supported by the SM LON module 8 Y Table 9 2 Network variables reference a8 S Variable name Cross reference Type Mandatory Object Mode Standard Network Variables 5 nviRequest Table 7 1 on page 38 SNVT Yes Node Input El nvoStatus Table 7
68. opyright 28 June 2007 Control Techniques Issue Code 1 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 2 1 2 2 2 3 2 4 3 1 4 1 4 2 4 3 4 4 4 5 5 1 5 2 5 3 5 4 SM LON User Guide Issue Number 1 Contents Safety Information eene 5 Warnings Cautions and notes ssssssssssseeeeeeeeneeen nns 5 Electrical safety general warning sse 5 System design and safety of personnel sssssssssssssss 5 Environmental limits m Compliance with regulations sssssssseeneeeeneee Oe el E Adjusting parameters sssssseneee General safety considerations for remote operation Introduction ulises dal 8 SMILON features ui aa 8 Solutions Module identification ooonnnnninnnoncninnnonancnnnnnacccnnrnnccacanannanncn 9 Product conformance Conventions used in this guide sssssssssneen 10 Mechanical Installation 11 General Installation 5 erret trennen tnn 11 Electrical Installation csssss 12 SM LON module information ss 12 Module grounding taria dada Network cabling EE Maximum network length Network termination Getting Started ns LonWorks network overview 16 Minimum software versions required
69. package Domain A group of devices connected together on a network and addressed using the same identifier that can communicate with other Double word A 32 bit word this may be signed or unsigned Earthing Grounding Describes the electrical safety or shielding connections for the module Explicit data See Non cyclic data Functional Block A collection of the functionalities available on a particular LonWorksQ device Each functional block contains a series of variables used as network data links Network variables and another series of variables used to configure the device Configuration properties Implicit data See Cyclic data LED Light emmiting diode Long word A 32 bit data word that may be signed or unsigned SM LON User Guide 65 Issue Number 1 www controltechniques com uonejejsu E eal Jeolueyooy uoneliejsu 1891981 Q ES a S a amp eoue eje omo sonsouBeId vie siejeure reg sua JO fuesso o9 66 LSB Least significant bit byte MSB Most significant bit byte Network variables Objects within the functional block which provide the mechanism for devices to send and receive data over the network Neuron ID The 48 bit serial number of the LonWorks transceiver IC Node A device on the network This may be either a device such as a drive or part of the network such as a repeater Node object A functional block object which provides basic device management features
70. parameter as the network configuration properties will be changed when the drive is defaulted o o amp LUE This parameter is used in conjunction with Pr MM 30 to restore the factory default a settings for the slot configuration parameters and network configuration properties g o a 6 24 SM LON option module error status x D 5z SM LON option module error status E a 0 oo oa 0 to 255 R TI w5 If a serious error occurs SM LON will cause the drive to trip on a slot error SLx Er for SS Unidrive SP Affinity and Digitax ST or SL Er for Commander SK and a code relating to B the cause of the error will be written to Pr MM 50 Table 6 2 SM LON error codes 3 Error Code Description 8 o 0 No fault present 2 58 Incorrect non volatile storage At least one configuration property was incorrectly formatted or corrupt Configuration property defaults were loaded g o 61 Invalid configuration parameters This trip will occur if the SM LON module is D installed on a Unidrive SP configured in regen mode T 65 Network loss 3 70 No valid fieldbus menu data available in the module to download to the drive The li user has not saved any valid data in the backup flash memory A 74 The option module has overheated ag 9 o 99 Software fault 38 Q SM LON User Guide 35 1891981 Es o y D zh o 5 Issue Number 1 www controltechniques com 7 1 7 2 7 3 7 4 7 4 1 36 Functional Blo
71. r will be as follows The LonWorks network variables which run the drive will take effect SM LON will stop forcing the drive inhibit if the previous state was RQ DISABLED The VSD output network variables that are connected to other devices will be propagated over the network RQ CLEAR ALARM Object Request 10 38 www controltechniques com This command can be used to clear any drive trip except hardware fault trips the network variable nvoAlarm2 is also cleared if possible This command is supported by the VSD functional block profile only if this command is sent to the node object the invalid request bit will be set in the nvoStatus network variable SM LON User Guide Issue Number 1 7 4 3 Node Object Output Network Variables Table 7 2 nvoStatus Ajejes nvoStatus Default N A SNVT Type SNVT obj status Mandatory Syntax Object ID Object Status This output network variable is used to return a 25 field data string which contains the Object ID in the first data field with the remaining data fields used to indicate the status of the specified object The significance of each bit in the data string is shown below If the RO REPORT MASK command is used in the nviRequest node object network variable then nvoStatus will return a status mask value which indicates the supported status bits of the specified functional block If the node object is specified in the RO REPORT MASK command then nvoStatus will return a st
72. s is because they are mandatory features and their support is presumed SM LON User Guide 39 Issue Number 1 www controltechniques com 40 The in alarm bit will be set if there is an active alarm set in the network variable nvoAlarm2 i e when the drive is tripped or has an alarm condition set The disabled bit will be set when the functional block from which the status is being read is disabled Table 7 3 nvoAlarm2 nvoAlarm2 Default N A SNVT Type SNVT alarm 2 Syntax Alarm Type Priority Time Sequence Description This variable returns information relating to the drive s trip or alarm state if one exists Alarm Type Length 1 byte AL NO CONDITION This code will be used if no drive alarm or trip condition exists Alarm Type 0 AL FATAL ERROR This code will be used for all hardware fault trips on the drive Alarm Type 30 E g SLx HF for Unidrive SP and SL HF or HF xx for Commander SK AL ERROR With the exception of the hardware fault trips this code will be used for Alarm Type 31 all other drive trips AL WARNING This code will be used for all drive alarm conditions Alarm Type 32 E g br rS Hot and OVLd Priority Length 1 byte Priority 255 This will be set to a value of zero Time Length 6 bytes byte 1 0 This will be set to a value of zero byte2 0 This will be set to a value of zero
73. should be installed with a protection thermistor If necessary an electric forced vent fan should be used The values of the motor parameters set in the drive affect the protection of the motor The default values in the drive should not be relied upon It is essential that the correct value is entered in the motor rated current parameter Pr 5 07 or Pr 0 46 in Unidrive SP Affinity and Digitax ST or Pr 0 06 in Commander SK This affects the thermal protection of the motor Adjusting parameters Some parameters have a profound effect on the operation of the drive They must not be altered without careful consideration of the impact on the controlled system Measures must be taken to prevent unwanted changes due to error or tampering especially if a remote user can access the drive parameters SM LON User Guide www controltechniques com Issue Number 1 1 8 General safety considerations for remote operation SM LON enables the possibility of remotely controlling a machine from a distance It is vital that when connecting to a machine remotely adequate safety procedures are implemented to prevent damage to the machine or injury to personnel Any connection to a live system has the possibility of altering the state of the machine adequate procedures must be implemented to cover this situation It is the responsibility of the machine builder to ensure that such a system is safe and complies with current legislation SM LON User Guide
74. so 8 3 8 3 1 8 3 2 8 4 8 4 1 58 Module identification parameters The basic menu parameters can be accessed through the slot menu in the drive Pr MM xx where MM is the menu for SM LON in the host drive The basic menu parameters may also be accessed using menu 60 i e Pr 60 xx SM LON module ID code SM LON module ID code 401 SM LON RO The module ID code indicates the type of module installed in the slot corresponding to menu MM This is useful for checking the module is of the correct type The ID code for SM LON is 401 SM LON firmware version SM LON firmware major version mm mm N A 00 00 to 99 99 RO SM LON firmware minor version nn Pr MM 51 The full version of the SM LON firmware can be read from the two parameters above The full version is assembled by combining the major version mm mm and the minor version nn as follows mm mm nn Network configuration parameters SM LON node ID SM LON node ID Default 0 Pr MM 03 Range 0 to 127 Access RO This is used as a way to identify the node on the network This parameter is an indication of the value set by the network configuration tool during commissioning it is not used to actually set the node ID of the drive and can only be changed during the network commissioning process SM LON User Guide www controltechniques com Issue Number 1 8 4 SM LON network loss trip SM LON network loss
75. specified by 1 15 Pr 1 15 1 select preset reference 1 441 21 Pr 2 02 1 ramp enable Pr 2 10 9 acceleration rate selector Pr 2 20 9 deceleration rate selector Pr 3 13 0 enable frequency slaving Pr 4 11 0 torque mode selector speed control Pr 6 01 1 stop mode ramped stop Pr 6 43 1 control word enable These changes will then be saved automatically by SM LON Table 7 32 nviTriggerEvent nviTriggerEvent Default 0 0 0 SNVT Type SNVT switch Optional Range N A 0 to 1 This input network variable is used in conjunction with the nciEventTask to trigger an event task within a SM Applications or SM Applications Lite module Syntax Value State The first setting Value will be ignored by SM LON The second setting State is used to trigger the SM Applications or SM Applications Lite event task the event task will only be initiated upon a transition from 0 to 1 in the value of State SM LON User Guide www controltechniques com Issue Number 1 7 4 12 VSD Functional Block Control Techniques Specific Output Network Variables uoneuuojul Ajejes Table 7 33 nvoAnlginput1 nvoAnlgInput1 Default N A SNVT Type SNVT lev percent Mandatory Syntax Value Range 100 000 uononpoau This output network variable is mapped to the drive analog input 1 Pr 7 01 The resolution of this network variable is identical to Pr 7 01 and accurate to two decimal places Table 7 3
76. su 12913981 Q ES a S a amp 9oueJejed YANO sonsouBeiq Soeur sisjeueled Suel JO Hesso 8 4 5 SM LON domain ID 8 5 8 5 1 60 SM LON domain ID Default Range Access Pr MM 12 Pr MM 13 Pr MM 14 Pr MM 15 Pr MM 16 Pr MM 17 The domain ID byte parameters are used to indicate the network domain ID number to which SM LON is connected These domain parameters indicate the value set by the network configuration tool during commissioning they are not used to actually set the domain ID value and can only be changed during the network commissioning process Diagnostic parameters SM LON diagnostic information Diagnostic Information N A 9999 to 9999 RO The diagnostic information for the SM LON can be viewed in the diagnostic information parameter Pr MM 06 When the SM LON is communicating successfully Pr MM 06 will give an indication of the number of network variable updates per second This includes received messages from other devices and transmitted messages from SM LON These messages will generally be network variable updates If the SM LON module cannot be detected on the network by the network configuration tool or other devices on the same domain then the value in this parameter can be used to assist in diagnosing the cause of the problem Table 8 2 SM LON operating status codes lists the possible values for this parameter Table 8 2 SM LON operating status c
77. trip Default Range Access This parameter is used in conjunction with the received heartbeat time configuration variable nciRcvHrtBt to cause a trip condition if the network is lost The value of the variable nciRcvHrtBt determines the approximate time in Seconds that SM LON will wait after not receiving any network information before forcing a network loss trip Pr MM 50 65 For a network loss trip to occur Pr MM 07 must be set to 1 and the network variable nciRcvHrtBt must be set to a value greater than zero Before the network loss trip is initiated the motor will be stopped using the speed control configuration properties so the overall trip time may be greater than the setting of the nciRcvHrtBt configuration property 8 4 3 SM LON subnet ID SM LON subnet ID This is used as a way to identify the subnet on the network This parameter is an indication of the value set by the network configuration tool during commissioning it is not used to actually set the subnet ID value and can only be changed during the network commissioning process 8 4 8 SM LON domain ID length This is used to indicate the number of bytes within the LonWorks message which constitute the domain ID number and can only be changed during the network commissioning process SM LON User Guide 59 Issue Number 1 www controltechniques com uononpogu uopeuuojul Jeolueyooy ee Ayeyes uonejejsu uoneliej
78. twork Description Enter an appropriate name for the network and click the Next button The window in Figure 5 3 should be displayed if the network is connected then ensure the checkbox Network Attached is ticked and click the Next button the window shown in Figure 5 4 on page 21 should be displayed Figure 5 3 Network attached Network Wizard Network Interface IV Network Attached Network Interface Name LON1 Zi 20 SM LON User Guide www controltechniques com Issue Number 1 Figure 5 4 Network management mode Network Wizard uoneuluoJul ejes Management Mode uononpoau opening this drawing uonejlejsu jeolueyooy uoneliejsu jeoujoe Back Cancel Ensure the Onnef option is selected and click Finish to continue The plug ins then need to be registered by adding all listed plug ins to the To Be Registered list as shown in Figure 5 5 A amp 3 a o S a bd a Sisjeueied Figure 5 5 Plug in registration Network Wizard Plug In Registration Jeuonoun4 Echelon LonMaker Browser Version 3 00 Not Registered Echelon LNS Report Generator Version 3 08 Echelon LonPoint Configuration Version 3 10 sonsoubeiq Add All Remove All To Be Registered Echelon LNS Report Generator Version 3 08 Echelon LonPoint Configuration Version 3 10 souasejay JANO E kip this prompt when re opening this drawvi Register all unregistere
79. ty Table 7 4 nciLocation nciLocation Default N A SNVT Type SCPTlocation Optional Syntax Location This configuration property is a string value intended to contain the location of the LonWorks amp device It may be set by the user during the network configuration or left blank as required it will have no effect on the device functionality SM LON User Guide Issue Number 1 41 www controltechniques com uonejejsu EEN uoneuuojul j Aejes Jeolueyooy uoneliejsu 18913981 o amp a S a a SJojouieJeqd SINPON DEET euoyouny souasejay JAMNO sonsouBeiq Suel JO Hesso 7 4 5 Variable Speed Motor Drive VSD object functional block The variable speed motor drive object provides basic drive control The network variables and configuration properties are shown in Figure 7 2 Figure 7 2 VSD Object Functional Block nvDrvSpeedStPt E nvoDrvSpeed yj nDrvSpeedScale reoDryCurnt nvi amp ppSpecificl nvoDrvPwr ni AppSpecific2 nvoDrvRunHours nvi amp ppSpecific3 nvoDrvV olt nviDrvReset neoAntgInput1 nine rvoAniginput2 nvilnDest2 d Solo E rvoAppSpecific nviln2 moAppSpecific2 nviOutSret rvoAppSpecific3 nviOutSrc2 nvoDirectAct nvisetupDrvP ars e niTriggerE vent nvoDreRunning nvoEmergOvrStat nvolOState nvoFregAct nvoOuti nvoOut2 nvoOverloadwWrn moSpeedActRpm nvoTempWrn nvoZeroSpeed Mandatory Optional nciMaxSpeed nciDrvSpeedScale nciMinSpeed nciRcvHrtBt nciNmlF req nciEv
80. ue is not used by SM LON The second setting State is used to indicate the drive output active state a value of 0 indicates the drive ou indicates the drive output is active This value is taken from Pr 10 02 put is not active and a value of 1 Table 7 41 nvoEmergOvrStat nvoEmergOvrStat Default EMERG NORMAL SNVT Type SNVT hvac emerg Optional Syntax State Range EMERG NORMAL or EMERG FIRE This output network variable is used to indicate if the drive is in fire mode If SM LON is installed on a SP HVAC drive the value of this network variable will be determined by parameters Pr 1 53 Fire mode reference and Pr 1 54 Fire mode active if Pr 1 53 has a non zero value and Pr 1 54 is ON then the drive is in fire mode and this network variable will be set to EMERG FIRE the drive control inputs Run speed reference etc will be disabled and the drive will run at the emergency preset speed refer to Affinity User Guide for more information on emergency fire mode All other conditions will set this network variable to EMERG NORMAL If SM LON is not installed on a SP HVAC drive the value of this network variable will always be EMERG NORMAL Table 7 42 nvoFreqAct nvoFreqAct Default N A SNVT Type SNVT freq hz Optional Syntax Value Range 0 to 3000 Hz This output network variable indicates the actual drive output frequency This value is taken from Pr 5 01 www controlte
81. ues com Issue Number 1 Figure 5 14 Service message prompt Echelon LonMaker uoneuuojul Majes EN Please press the service pin on device SM LON Options Total Received Display data from service pin w Filter on program ID uononpoau Filter on channel Continue uonejejsu jEoiueuoe After the SM LON module has been configured on the network the drive must be configured to use the appropriate references This can be achieved in one of two ways the first way is to set the parameter Pr MM 34 to ON and save the parameters by setting Pr xx 00 to 1000 and resetting the drive The second way is to use the network variable nviSetupDrvPars and set the value of its State attribute to 1 this will set all relevant parameters and save the new values uoneliejsu jeoujoe To run a motor there are some network variables to be set first the motor rated speed should be set in nciNmlSpeed RPM and the motor rated frequency should be set in nciNmlFreq Hz these should be set as specified on the motor nameplate The speed scaling nviDrvSpeedScale and maximum speed nciMaxSpeed network variables should both be set to 100 000 96 The motor speed is now controlled by nviDrvSpeedStPt For more information on using this network variable refer to Table 7 6 on page 44 A amp 2 a o S a bd a SJojouleJed 5 4 2 Configuring other devices on the network The process to configure other devices is similar to conf
82. uired Table 5 1 lists the minimum versions of drive software for use with SM LON uoneuuojul Ajejes Table 5 1 Required software versions for use with SM LON Product Software Version SM LON Firmware V01 00 00 or later Unidrive SP V01 06 00 or later uononpoau Digitax ST V01 00 00 or later Affinity V01 00 00 or later Commander SK V01 06 00 or later It is strongly recommended that the latest firmware is used where possible uonejeisu jEoiueuoe 5 3 Setting up the SM LON module SM LON differs from most other fieldbus modules in that most of the network configuration parameters are set using the configuration tool The only module parameter which may need to be configured on the module during commissioning start up is the network loss trip parameter Pr MM 07 uoneliejsu 1891981 5 3 1 Setting the network loss trip Network loss trip A EI 3 a o S a bd o Pr MM 07 This parameter is used in conjunction with the received heartbeat time configuration variable nciRcvHrtBt to cause a trip condition if the network is lost The value of the variable nciRcvHrtBt determines the approximate time in seconds that SM LON will wait after not receiving any network information before forcing a network loss trip Pr MM 50 65 SJojouleJed guonouny For a network loss trip to occur Pr MM 07 must be set to 1 and the network variable nciRcvHrtBt must be set to a value greater than
83. umber of bytes within the LonWorks message which constitute the domain ID number and can only be changed during the network commissioning start up process SM LON domain ID byte 1 0 0 to 255 RO This parameter contains the decimal value of the first byte of the network domain ID number to which SM LON is connected SM LON domain ID byte 2 0 0 to 255 RO This parameter contains the decimal value of the second byte of the network domain ID number to which SM LON is connected SM LON domain ID byte 3 0 0 to 255 RO This parameter contains the decimal value of the third byte of the network domain ID number to which SM LON is connected Pr MM 12 Pr MM 13 Pr MM 14 SM LON User Guide www controltechniques com Issue Number 1 6 11 SM LON domain ID byte 4 E 0 nd Pr MM 15 0 to 255 RO gt This parameter contains the decimal value of the fourth byte of the network domain ID g number to which SM LON is connected amp o 6 12 SM LON domain ID byte 5 0 ES og Pr MM 16 0 to 255 s RO This parameter contains the decimal value of the fifth byte of the network domain ID zi m number to which SM LON is connected EE 38 6 13 SM LON domain ID byte 6 o E E Pr MM 17 0 to 255 z RO 5 This parameter contains the decimal value of the sixth byte of the network domain ID y z number to which SM LON is connected 3 a The domain ID byte par
84. uring commissioning start up and stored in the device s non volatile memory There are also two types of configuration properties Standard Configuration Property Type SCPT and User defined Configuration Property Type UCPT A LonWorks network consists of one or more domains each domain can accommodate up to 255 subnets and each subnet can accommodate up to 127 devices Addressing Each device on a LonWorks network has two different addresses The first address is a 48 bit physical address that is fixed in the neuron IC of the LonWorks device this is known as the neuron ID The second address consists of the node ID 0 to 127 subnet ID 0 to 255 and the domain ID 0 to 248 1 Node ID Every device on a subnet must have its own unique node identifier This node identifier can be any whole number in the range 0 127 Subnets A subnet is a group of devices connected together and addressed using the same domain and subnet identifiers The subnet identifier can be any whole number in the range 0 255 Domains A domain is a group of devices connected together and addressed using the same domain identifier either directly or through a repeater that can communicate with each other A device can only communicate with another device on the same domain The domain identifier can be any whole number in the range 0 to 248 4 SM LON User Guide www controltechniques com Issue Number 1 5 2 Minimum software versions req
85. voDriveSpeed iii SM LON User Guide www controltechniques com Issue Number 1 ANo DIDAU H a j AEE E EE A EEEE A 43 44 47 63 nvobryvLlealthy EE 43 52 63 3 AVODIVPWH uada fet obe d lege 43 45 47 63 E T nvoDrvRunHours iii 43 45 63 g nvoDrvRunning 43 52 63 nvoDrvSpeed eese cn ta A id 43 63 meine ien rtt ertet edo be eene ee dede 47 63 3 hvoEmergOVIStat ridere tre cet tica aired 44 52 64 E nvoFreqAct 52 64 Sg nvolOState 53 64 usen E 53 64 zu deor rr A Eege 50 51 53 28 nvoOverloadWrn 54 64 2 3 509 nvoSpeedActRpnY sic tan eee eiu 44 54 64 DOIVOSTAUS 2 nd ee LE RAA Ne En E 36 39 63 e TembpWIrt EE 44 54 64 Se nvoZeroSpeed eee 44 54 64 2 O 58 Octet a i a sed ao eaa 66 B g BEEN 66 a A T 66 Folter Ze El 66 x Q y Quick Ref rence e ti sca che beste bete ned 62 3 R i Received heartbeat time us 29 Recommended cables enne 13 a S 3 Safety considerations 7 z Safety information lt a ag ee erat 5 S SECURE DISABLE 4 28 ERES ted 5 8 Service LED e 8 A a e or a aE E EAEE EE EAEE EFEN 8 Setting the network loss trip sssssssseeeeme Setting up a LonWorksQ network ssssssssssseeeeeeeen 2 Setting up the SM LON module sss tnnt 3 SM LON default configuration property storage e SM LON diagnostic in
86. y terminated For further information on network termination see section 4 5 Network termination on page 13 18 SM LON User Guide www controltechniques com Issue Number 1 When all network cabling and termination has been approved and any control wiring digital or analog inputs or outputs have been connected according to the relevant connection details supplied with each device then the devices may be switched on and configured 5 4 1 Configuring the SM LON module on the network In order to configure the SM LON module on a LonWorks network there are several files required by the network integration tool These files consist of a device interface configuration file SM LON XIF which defines the SM LON interface properties for the network integration tool and various additional resource files which define the functional block profile properties of the SM LON module uoneuuojul ejes uononpoau For more information on the functional blocks supported by SM LON see section 7 1 What is a functional block on page 36 uonejejsu jEoiueuoe These configuration files are available from your supplier local drive centre or can be downloaded from the Control Techniques website www controltechniques com and should be placed in the LonWorks installation folder on the PC this folder is normally by default C LonWorks Types User ControlTechniques and added to the resource file database using the LNS Resource File Cata
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