Emerson LMS 1000 Application Guide
Contents
1. c cccccececeeeeeeceeceeeeeeeeeceenaeceeeeeeeeceaesaeeeeeeeeessennaeees 17 List 83 Energy Management Software Option ssssssssessseeneeeeeen eene nennen enne 17 List 84 External GPS Modem Interface aaa aaia iaaa 18 List85 AC Analyzer Interface eit Ernie Fori tesi roe Rete sema eU gto LO eru a een a e es a dua g OR 18 List 60 TE1 X 25 Software OptIOD octo ttt eta tengo n tenuta genna neret gend qup aa Reddy DOE A eR ed RE ORA 18 List 87 Power Metering Software Option sssssssesssseeeeeeeenneen menn nennen nennen nennen 19 List 88 Local Port Redirection to OEM 1 Port Option ssssssssssssssseeeenen eene 19 List 90 TL1 over Ethernet Software Option sssssssssssssssssseeene eene nennen 19 List 92 MCA Interface Cable Customer Specified Length sssssssssssssssseeeene 19 List 93 MCA Interface Cable Termination Kit esses nnnm 20 List 94 MCA Interface Cable Pre assembled eeessssssseseseeeeeeenenenne enne nennen nnn nnne nn rrr nnn 20 List BA Current Limit Resistor Kit nnnm ener en nenmrnn nennen nn nnns 20 List BB Current Limit Resistor Kit essssssssssssesseenenenennen enne nennen nnnrnn nnn innen nennen 20 List BC Current Limit Resistor Kit eene eren nennen nnn innen nennen 21 List BE In Line Fuse Kit enne ren nn enhn nnenr ern n nnne d nnne nee EEEE sr nennen er ses 21 List BF In2. ssssssssssssssssseseese eene mener ener nnne rennen 45 2 6 Optional Modem Circuit Card Part No 508951 ccc ccccccceceeceeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeseeeneess 46 3 586505000 586505500 LMS1000 Expansion Cabinet c sccccececeeeeeeeeeceeeeeeeseeeaeeeeeseeesesseaaeeeseeeeeeeeeees 50 3 T Input Range ient ete onde eben eae ord ice eet ede ceo od ttc Lese e aee ote 50 3 2 Mounting s cei pei ode ted Dee e t Oe o ede tee ae ed eee dcc tee ead ae ee ae 50 3 3 I O Circuit Card Mounting Positions essseene emen ennemi nennen 50 3 4 CPU Circuit Card Part No 506153 also used in 582140000 582140001 and 582126100 Secondary Bays dme bte Deep te tmd a te aet eto eaters ei de de Pa ded ee 50 4 586505000 586505500 LMS1000 Expansion Assembly eene nnne 50 4 1 Input RAINS soc enr eio te de PR een ee e te Ee ER Cea e aep t ete ER Cert epe e ade ee 50 4 2 Mounting iet Re aU ed eae deae eR Maven etal Bra eae eee ee 50 4 3 lO Connector PInOUts 222 202 tn ntt o e x ee te tiU dor i t ce d HARDER desiit ise heed 50 4 4 CPU Circuit P O Part No 507600 dd eee UE ed t PT HOP f etd 50 5 Input Output I O Circuit Cards oia e aa AA AS EAA AAAA AA nennen erret AA TIASA nin nin nenne nennen 51 5 1 Four 4 Input Analog Circuit Card Part No 506336 eene emen eene 51 5 2 Eight 8 Input Analog Circuit Card Part No 514528 sssssssssssssse eene 51 5 3 Twelve
3. ssssssseeeeeee enne ene 11 List 22 Eight 8 Input Analog Circuit Card sssssssssse eee nennen mnes 11 List 23 Twelve 12 Input Analog Circuit Card for Measuring Individual Battery Cell Voltages 11 List 30 Four 4 Input Binary Circuit Card ssssessseeeeneenee enm ennemis 12 List 31 Eight 8 Input Binary Circuit Card ssssesseeeeeeeneenm een enn eren nnis 12 List 40 Four 4 Output Form C Relay Circuit Card sss enm een ene 13 List 60 LMS1000 Display Option for use in later version 586505000 19 cabinets ss 13 List 61 LMS1000 Display Option for use in earlier version 586505000 19 cabinets 14 List 62 LMS1000 Display Option for use in 586505000 586505500 23 cabinets ssuuss 15 List 63 LMS1000 Display Option for use in 586505000 586505500 23 cabinets ssssss 15 List 0 Modem Circuit Card ue tete tn nena Ra dede on I IRR En Ee Ee RARE BER MA Ve axwedvanshanaees 16 List 78 LMS Dual MCA Interface Software Option ssssssssssssssssssseeneeeeen mener nnns 16 List 9 Gateway Port Software Optlon iust iet erste theta e T agna Le ede ek eu ER ed Read 16 List 80 Door Access Controller DAC Interface ssssssseeeee em emm eem nennen 17 List 82 PCU Rectifier Sequencing Software Option
4. SAG586505000 EMERSON SAG586505500 Network Power System Application Guide Spec No 586505000 Model LMS1000 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 SYSTEM OVERVIEW Home Description A programmable monitoring controlling and data acquisition system designed for use in telecommunications power sites e Consists of a Main Cabinet which holds up to ten input output circuit cards in a cabinet size that occupies two 19 or 23 relay rack spaces For system expansion and or to monitor points at other locations Supplemental Expansion Cabinets are available Each Expansion Cabinet holds up to ten input output circuit cards in a cabinet size that occupies two 19 or 23 relay rack spaces Also available are Expansion Assemblies which provide an input circuit card equipped with a fixed number of analog and binary input points in a sheet metal housing These assemblies can be mounted inside customer equipment The Main Cabinet Expansion Cabinets and Expansion Assemblies are interconnected via the LMS1000 network e The Main Cabinet and Expansion Cabinets can be equipped with various input circuit cards to monitor a variety of analog binary and temperature points The Expansion Assemblies are always equipped with an input circuit card to monitor a fixed number of analog and binary points e LMS1000 collects data from the input circuit cards The data collected is used for alarm processing and reporting and to pr
5. Total Battery Current Individual Battery Currents Battery Alarms e View VPS NPS MCA Alarms e View VPS NPS LVD Alarms Available to LMS1000 Users with Access to Level 2 Commands via the PRCONFIG NETSURE Commands e View VPS NPS Settings System Float Voltage System Test Equalize Voltage System High Voltage Alarm 1 System High Voltage Alarm 2 System Battery On Discharge Alarm System 50 Battery On Discharge Alarm System High Voltage Shutdown System Overcurrent Alarm System Current Limit System Output Voltage Calibration Reading NAG Minutes Audible Alarm Cutoff Reset Time Period Battery Charge Temperature Compensation Module s Calibration Voltage Subsystem High Voltage Alarm if installed Subsystem Low Voltage Alarm if installed Subsystem Output Voltage Calibration Reading if installed Subsystem Overcurrent Alarm if installed Battery Overcurrent Alarm Auto Equalize Multiplier Digital Temperature Compensation Slope Digital Temperature Compensation Maximum Voltage Page 32 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500
6. respectively 1 6 Specialty Interfaces 1 6 1 1 6 2 1 6 3 Door Access Controller DAC Interface Provides interface to a Door Access Controller via the LMS1000 OEMS Port e The DAC can be configured and monitored via LMS1000 e Provides dual control of the door latch LMS1000 and DAC Keypad Keypad access can be enabled and disabled via LMS1000 e Provides LMS1000 Binary Channels to monitor DAC Communications Strike Failure Forced Entry Invalid DAC PIN List and a Door Open Alarm e Provides LMS1000 Event Log entries for each valid and invalid Key Codes entered e Key codes can be SET DELETED LISTED DAC access via key codes can be enabled and disabled e Status of door and electric strike can be viewed e AnLMS1000 Relay will be used to allow remote control of the Door Latch in the event the DAC fails The LMS1000 Relay will be controlled via two user configurable LMS1000 commands to open the door and lock the door External GPS Modem Interface Provides interface to an external modem via the LMS1000 OEM2 Port AC Analyzer Interface Provides interface to an AC Analyzer via the LMS1000 OEM1 Port e Provides LMS1000 Analog Channels to display the various parameters monitored by the AC Analyzer Provides an LMS1000 Binary Channel to monitor the communications path to the AC Analyzer Page 41 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential
7. This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 The automatic log off feature mentioned above is automatically disabled for the TL1 Home port See the description of the TL1 software option See also the description of the SNMP software feature for its alarm reporting mechanisms 1 4 8 System Alarm Reporting This method is designed to satisfy the requirements of maintenance personnel In this method the system as a whole is programmed to report alarm conditions to a specific user or a sequence of users if the primary user cannot be reached if an alarm occurs on any channel programmed for System Alarm Reporting When an alarm condition occurs on a channel configured for System Alarm Reporting the system attempts alarm notification by either dialing the first user in the predetermined calling sequence or by Emailing the first user If this user is reached the alarm report is given in the mode pager modem or Email configured for the specified user System Alarm Reporting is considered
8. 12 Input Analog Circuit Card Part No 520838 ssssssssssseeee eene 51 5 4 Four 4 Input Binary Circuit Card Part No 506332 sssssssssseeeee enne nnns 51 5 5 Eight 8 Input Binary Circuit Card Part No 506334 sssssssssssseeee eene 52 5 6 Four 4 Output Form C Relay Circuit Card Part No 506335 ssssssssseeeee eee 52 5 7 Eight 8 Input Temperature Circuit Card Part No 506333 sssssssssseeeene enne 52 PHYSICAL SIZE INFORMAT O N r rents Snnt re aa Ert aee e aL Dee REDE u EAS HERRERA PUR Ya RE A Ripa eux AE AeA SEEE 53 Overall Dimensions 586505000 Main List 1 and Expansion List 6 Cabinets 53 Overall Dimensions 586505000 586505500 Main List 2 and Expansion List 7 Cabinets 54 Overall Dimensions 586505000 586505500 Expansion Assembly eene 55 Connector Locations 586505000 586505500 Main Cabinet eeeeneen 56 Connector Locations 586505000 586505500 Expansion Cabinet eee 57 Connector Locations 586505000 586505500 Expansion Assembly eene 58 RELATED DOCUMENTATION em 61 REVISION REGORD Ec H RR 62 Page 7 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confid
9. 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 uniform you have the earlier version cabinet and must use kit P N 524354 586505000 List 61 If Home the 10 I O backplane connector is longer then the others you have a later version cabinet that uses Kit P N 524353 586505000 List 60 See the above illustration Requires LMS1000 firmware 5 0 0 or later Requires use of the LMS1000 OEM2 Port CANNOT be used if List 84 ordered Not for use in 23 cabinets Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order one 1 List 61 to provide a front panel display and keypad in an earlier version 586505000 19 cabinets This option is field installable List 62 LMS1000 Display Option for use in 586505000 586505500 23 cabinets Features Provides a front panel display and keypad Allows local access to the system without a terminal You can view plant voltage and load current view active alarms perform channel scans view the Events Log and Alarm Log view channel statistics and view battery discharge history Restrictions Requires the right most I O circuit card mounting slot see List 63 for a kit that DOES NOT require the right most I O slot Requires LMS1000 firmware 5 0 0 or later Requires use of the LMS1000 OEM2 Port CANNOT be used if List 84 ordered Not for use in 19 cabinets Not for use in Spec Nos 58214
10. 586505000 List 60 The later version cabinet has been modified to allow the LMS1000 Display Interface circuit card to be plugged into the 10 LMS1000 I O circuit card mounting slot To determine exactly which kit is compatible with your 19 cabinet look at the LMS1000 I O circuit card backplane connectors If all backplane connectors are uniform you have the earlier version cabinet and must use kit P N 524354 586505000 List 61 If the 10 1 0 backplane connector is longer then the others you have a later version cabinet that uses Kit P N 524353 586505000 List 60 See the following illustration Requires the right most I O circuit card mounting slot Requires LMS1000 firmware 5 0 0 or later Requires use of the LMS1000 OEM2 Port CANNOT be used if List 84 ordered Not for use in 23 cabinets Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Opened in Determines earlier version vs later version 19 cabinet Illustration Earlier Version Cabinet I O slot 10 is the same as the other I O slots USE KIT P N 524354 586505000 List 61 Later Version Cabinet I O Slot 10 has a larger 30 pos connector USE KIT P N 524353 586505000 List 60 Ordering Notes 1 Order one 1 List 60 to provide a front panel display and keypad in a later version 586505000 19 cabinets This option is factory installed if ordered with the system This option is also field installable List 61 L
11. Page 3 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 SAG586505500 Issue AZ April 7 2014 System Application Guide Spec No 586505000 Model LMS1000 Spec No 586505500 Model LMS1000 586505000 and 586505500 Ja O O O O O O O O CO SSS SSS SSS SS RRr M O Main Cabinet List 1 LMS1000 Monitoring System List 2 LMS1000 Monitoring System Expansion MAIN CABINET 19 23 MAIN CABINET 23 only Cabinets Similar List 6 LMS1000 Monitoring System List 7 LMS1000 Monitoring System 19 Cabinet EXPANSION CABINETS 19 23 EXPANSION CABINETS 23 only Shown List 10 LMS1000 Monitoring System EXPANSION ASSEMBLIES not shown C C o o O o o O O o C2 i nee Front Door OTe ee EPU ireu Card List 92 VPS MCA Interface Cable Op
12. or List BC ring lug for 10 stud List 88 Local Port Redirection to OEM 1 Port Option Features Local communications access is provided via the rear OEM 1 port instead of the front panel port Restrictions The local port is redirected to the LMS1000 OEM1 Port CANNOT be used if List 79 List 85 or List 86 ordered Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 88 if the local port is required to be on the rear of the cabinet instead of on the front List 90 TL1 over Ethernet Software Option Features With the TL1 over Ethernet software option LMS1000 supports TL1 interface in a TCP IP network An Ethernet port is provided for this network connection Refer to the Specifications section of this document for further information Restrictions CANNOT be used if List 86 is ordered Ordering Notes 1 Order List 90 if TL1 over Ethernet is required see also List 86 for another TL 1 option List 92 MCA Interface Cable Customer Specified Length Features A category 5 four twisted pair conductor 24 AWG solid copper cable Cable connects between the MCA of a Vortex Power System VPS or NETSURE Power System NPS and the 586505000 586505500 Main Cabinet Customer specified length cable See also List 94 Page 19 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and propr
13. 2 5 volts 5 4 Four 4 Input Binary Circuit Card Part No 506332 5 4 1 General Adds four 4 binary inputs to the system Double ended input connections 5 4 2 Maximum Input Voltage 60 volts DC 5 4 3 Channel to Channel Isolation 60 volts maximum Page 51 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 5 4 4 Input State An applied voltage of 12 to 60 volts DC is defined as the CC contact Home closed state An applied voltage of 2 0 volts or less is defined as the CO contact open state Voltages between 2 0 and 12 volts are undefined 5 4 5 Alarm State Either the CC or CO state may be configured as the alarm state 5 5 Eight 8 Input Binary Circuit Card Part No 506334 5 5 1 General Adds eight 8 binary inputs to the system Single ended input connections 5 5 2 Maximum Input Voltage 60 volts DC 5 5 3 Channel to Channel Isolation 60 volts maximum 5 5 4 Input State An applied voltage of 12 to 60 volts DC is defined as the CC contact closed state An
14. 3 1 17 17 1 33 mee 18 QO L 00000000000000000 50 34 Onn O afe I O Ports RJ 45 J18 System Network Port Expansion Port Page 58 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Home NNECTOR NNECTOR add FUNCTION PN FUNCTION 1 Binary Input Channel 4 26 Shunt Input Channel 4 2 Binary Input Channel 3 27 Shunt Input Channel 2 3 Binary Input Channel 1 28 Shunt Input Channel 1 4 Battery Return 29 not used 5 Battery 30 not used 6 Circuit Ground 31 not used 7 Shunt Input Channel 8 32 not used 8 Shunt Input Channel 6 33 not used 9 Shunt Input Channel 5 34 Frame Ground 10 Shunt Input Channel 3 35 Frame Ground 11 Shunt Input Channel 2 36 Binary Input Channel 6 12 not used 37 Binary Input Channel 8 13 not used 38 not used 14 not used 39 not used 15 not used 40 not used 16 not use
15. A represents an analog input channel 99 represents the NPS MCA Node cannot be changed 01 represents input channel 01 Example A0101 A represents an analog input channel 01 represents the 582140000 582140001 582126100 Primary Bay Node cannot be changed 01 represents input channel 01 Example A0201 A represents an analog input channel 02 represents an 582140000 582140001 582126100 Secondary Bay Node cannot be changed 01 represents input channel 01 B Channel Configurations Each channel has certain attributes that are used by the system in the various software features it provides These attributes are presented to the user in the channel configurations which allow the user to enter specific information pertaining to these attributes 1 Analog Channels These channels monitor a variety of DC voltages or temperatures Additionally with external interfaces these channels can monitor other signals such as AC voltages current and oil pressure Each of the analog channels has four adjustable alarm limits that can be programmed to report an alarm condition or record this condition for statistical purposes Alarms can be distinguished as low or high alarms and an Alarm Polarity attribute can be set to further define the alarm Note Channels of the eight input temperature circuit card are assigned as Analog Channels in the system configuration These inputs can be set to display in Celsius default or Fahrenheit e Alarm Po
16. Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 TABLE OF CONTENTS System Picture List Accessor Specifications Physical Size Related p l Overview lt Descriptions Descriptions Information Documentation SYSTEM OVERVIEW oe cisccc oss sccassseieszctuccessscsetaaneisabseyscsssasuacesouzacied datacsnssutssiadesceds boss LE SERE ue Ree CRUS iabedsacesauaasandidernensisace 1 TABLE OF olus gp ee aot 6 LIST DESCRIPTIONS e 8 List 1 Common Equipment for the LMS1000 Main Cabinet sssssssssssee ee 8 List 2 Common Equipment for the LMS1000 Main Cabinet sssssssssseeeeeee 8 List 6 Common Equipment for One 1 LMS1000 Expansion Cabinet esssssssssseeee 9 List 7 Common Equipment for One 1 LMS1000 Expansion Cabinet sssssssssssse 9 List 10 Common Equipment for One 1 LMS1000 Expansion Assembly ssssssssseeeese 10 List 20 Four 4 Input Analog Circuit Card ensinc enm enne enne en nennen nnns 10 List 21 Eight 8 Input Temperature Circuit Card
17. Features Provides four relays each with one set of Form C relay contacts These relays are used for control or alarm applications and can be programmed by the user Relays may also be manually forced on energized SET RLY Any relay forced on can also be manually turned off CLR RLY A jumper is provided on the relay circuit card to enable disable the SET RLY and CLR RLY commands The relay circuit cards can also be programmed to work with the energy management and or sequential start option if ordered relays are not required to provide energy management and or sequential start to a VPS NPS Power System Refer to the Specifications section of this document for further information Restrictions Not for use in Expansion Assemblies Maximum number of relay outputs that can be provided is dependent on how many open O slots are available in the system network and maximum number of rely channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specifications in this document for number of relay channels supported Note When LMS1000 is connected to an MCA the MCA Interface does not require connections to analog binary or relay circuit cards When energy management and or sequencing option is ordered relays are not required to control the VPS NPS PCUs Note Also available in a Spec No 582140000 582140001 and 582126100 Power Syst
18. Line Fuse Kit e emen emen nnn ennrrnrs s nnn n nn nn nennen rsen EEEE nennen ses 21 List ST Temperature Sensor sssssssssssssssssssssseseeeeneneee erret ennt nennen innen nnne EESAN EEEE ener nnn nns 21 List SU Temperature SCNSOM cccccceccececeeeeeeceeeceeeeeee seca eaaeeeee eene erret e nennt nene tern sinn n tern rr EEEE nnne nennen 21 ACCESSORY DESCRIPTIONS iii scccciesscccceesssacesctsnceceesscnceesascncecessceceesteneeceedsseceesascuceeedscecieascaeaceeasdecispascndecesscacieateat 23 In Line Fuse Kit P N 535135 c cccccicsccsceccassccececacecesanccene sectucessscacessecadaessanceniessecduassaadadaetecadeessancdaaeiaeduaassaecceaeasd 23 Replacement CPU Memory Backup Battery esee nennen nennen nnn nenne tnn nnn tenni nennen 23 LMS1000 Network Cables 1 onere reet cuerno nno rh tn hu kn urn nr rk na aaa Enea R ra Du aa ERn Nun MER CR RAE anaa aaa 23 Page 6 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 130VDC Monitori
19. Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Ordering Notes Home 1 Order List 79 if a Gateway Port is required 2 If you are connecting the Gateway Port to a DGU also order null modem cable P N 545562 5 or 548010 50 This cable connects between the DGU and the LMS1000 3 In Power Systems with an integrated controller shelf NetSure 702 NetSure 801 NetSure 802 connecting the Gateway Port to a DGU requires a straight through cable P N 548009 be ordered This cable connects between the DGU COM card Port A and the LMS RS 232 port located on the front of the LMS card assembly List 80 Door Access Controller DAC Interface Features Configure and monitor the Door Access Controller via LMS1000 Refer to the Specifications section of this document for further information Restrictions Interfaces to a Desarrollos Digitales Door Access Controller Model MKC 1 only The DAC Port is provided via the OEM3 VPS NPS Port If used with a VPS NPS customer must provide a Y cable to allow both the Door Acce
20. Power System VPS via the LMS Refer to the Specifications section of this document for further information Restrictions Can only be used in the integrated LMS of a Spec Nos 582140000 582140001 and 582126100 systems Operation of Energy Management is disabled when the Dual MCA Interface option is installed Ordering Notes 1 Order List 78 if a 582140000 582140001 or 582126100 system is to interface with an MCA in a Vortex Power System VPS via the LMS List 79 Gateway Port Software Option Features Allows the LMS1000 to emulate a dumb RS 232 asynchronous terminal interface When installed user input through either a local or remote LMS1000 port is directed to the customer equipment connected to the LMS1000 Gateway port When connected to a Lorain SMART DGU automatically extends some LMS commands to the DGU and returns DGU responses to user port Refer to the Specifications section of this document for further information Restrictions In the 586505000 586505500 system the Gateway port is provided via the LMS1000 OEM 1 port CANNOT be used if List 85 List 86 or List 88 ordered In the Spec Nos 582140000 582140001 and 582126100 Power Systems the Gateway port is provided via the port located on the front of the LMS1000 CPU circuit card installed in the Primary Bay Refer to the Specifications section of this document for further restrictions Page 16 of 62 This document is property of Emerson
21. Restrictions Requires available input on a List 20 Four 4 Input analog card per measurement Ordering Notes 1 Order one 1 P N 520839 130VDC Monitoring Wire Harness per 130VDC input to be monitored as required Page 24 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 SPECIFICATIONS El 1 586505000 586505500 LMS1000 SYSTEM 1 4 Environmental Ratings 1 1 1 Operating Ambient Temperature Range 40 C to 60 C 40 F to 140 F 1 1 2 Storage Temperature Range 40 C to 85 C 40 F to 185 F 1 1 3 Humidity This system is capable of operating in an ambient relative humidity range of 096 to 9596 noncondensing 1 1 4 Altitude The maximum operating ambient temperature should be derated by 10 C at an elevation of 10 000 feet above sea level For elevations between 3 000 feet and 10 000 feet derate the maximum operating ambient temperature linearly 1 1 5 Safety Compliance A This unit is UL Recognized to the requirements of UL 1950 Standard for Information Te
22. This circuit card must only be used for adjacent cells in a common battery string The input requires the inter cell connector to be the negative input on one cell and the positive input for the next one This cannot be used for pilot cells in multiple battery strings A maximum of six 6 cards may be installed in the Main Cabinet Maximum number of analog points that can be monitored is dependent on how many open I O slots are available in the system network and maximum number of analog channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specifications in this document for number of analog channels supported Analog inputs should be protected by a fuse in each lead Ordering Notes 1 Order one 1 List 23 analog circuit card for every twelve 12 battery cells to be monitored using LMS1000 2 Order in line fuse kits as required per List BE BF or P N 535135 List 30 Four 4 Input Binary Circuit Card Features Monitors 0 60 volts AC DC double ended binary inputs Each circuit card provides four 4 binary inputs to the system Each input requires two connections source and return Refer to the Specifications section of this document for further information Restrictions Not for use in Expansion Assemblies Maximum number of binary points that can be monitored is dependent on how many open l O slots are available in the sys
23. and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 2 586505000 586505500 LMS1000 MAIN CABINET Home 2 4 Input Ratings 2 1 1 Input Voltage Range 20 60 Volts DC 2 1 2 Maximum Input Current 0 7 Amperes 2 2 Mounting 2 2 1 586505000 List 1 Furnished reversible mounting angles permit mounting in a 19 or 23 wide relay rack with 1 or 1 3 4 multiple drilling 586505000 and 586505500 List 2 Furnished mounting angles permit mounting in a 23 wide relay rack with 1 or 1 3 4 multiple drilling 2 2 2 Mounting angles may be re positioned for flush front mounting 5 inch front projection mounting or 6 inch front projection mounting 2 3 I O Circuit Card Mounting Positions 2 3 1 Provides for mounting of any combination of I O analog binary relay and temperature circuit cards CARDS MUST BE LOADED LEFT TO RIGHT AS VIEWED FROM THE FRONT OF THE CABINET DO NOT SKIP SLOTS 2 3 2 Contains ten 10 I O circuit card mounting slots 2 4 CPU Circuit Card Part No 545476 used in 586505000 586505500 and 545558 used in 582140000 582140001 and 582126100 2 4 1 General The CPU circuit card contains the
24. not used 9 Shunt Input Channel 12 34 Shunt Input Channel 24 10 Shunt Input Channel 11 35 Shunt Input Channel 24 11 Shunt Input Channel 10 36 Shunt Input Channel 21 12 not used 37 Shunt Input Channel 20 13 not used 38 Shunt Input Channel 18 14 not used 39 Shunt Input Channel 16 15 not used 40 Shunt Input Channel 14 16 not used 41 Shunt Input Channel 13 17 not used 42 Shunt Input Channel 11 18 Shunt Input Channel 23 43 Shunt Input Channel 10 19 Shunt Input Channel 22 44 not used 20 Shunt Input Channel 21 45 not used 21 Shunt Input Channel 19 46 not used 22 Shunt Input Channel 18 47 not used 23 Shunt Input Channel 16 48 not used 24 Shunt Input Channel 15 49 not used 25 Shunt Input Channel 13 50 not used Page 60 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 RELATED DOCUMENTATION El Schematic Diagram SD586505000 SD586505500 Instructions Section 5847 LMS1000 Us
25. system s firmware a power supply circuit communications circuits and programmable local LED indicators This circuit card can be equipped with a piggy back modem circuit card 2 4 2 Processor MC 68EN302 20MHz 2 4 3 SRAM Data 2M bytes 2 4 4 Flash System 1M bytes 2 4 5 Flash Application 3M bytes 2 4 6 Real Time Clock The time base for the operating system comes from a real time clock This integrated circuit is totally self contained and does not require any calibration Accuracy 10 PPM 27 seconds per month or better at nominal temperature 2 4 7 Low Lithium Battery Detection Circuit llluminates a local LED indicator for low lithium battery indication 2 4 8 Communications Note The following ports may be different when the LMS1000 is used in a Spec No 582140000 582140001 or 582126100 Power System Refer to the 582140000 582140001 or 582126100 system documentation A Local Port RS 232 A front panel 9 pin female D type jack is provided This jack is configured as a DCE Data Communication Equipment Refer to Table 1 for pin assignments Note When List 88 is ordered the port on the front of the 586505000 586505500 cabinet is inactive and the local port is redirected to OEM1 located on the rear of the cabinet The configuration of the OEM1 port in this application is as shown in Table 2 B Modem Port An internal 56K bps modem circuit card can be installed onto the CPU circuit card The modem circuit car
26. to level 1 commands To clear the Power Metering data enter the command CLR POWER The CLR POWER command is available to a user programmed for access to level 4 commands 1 5 3 Energy Management Software Option if installed The optional energy management programming permits an installation to only operate rectifiers PCUs as needed to maintain the load and keep batteries in a fully charged condition As load increases the energy management feature will turn on additional rectifiers PCUs as needed in 15 second intervals when load requirements exceed a user selectable percent 90 99 of the total capacity of the operating rectifiers PCUs to maintain the load LMS1000 will also turn off rectifiers PCUs as necessary in 15 minute intervals if the load decreases below a separate user selectable percent of the total capacity of the would be operating rectifiers PCUs Rectifiers PCUs which are always operating to maintain any load requirements are cycled through the group of rectifiers PCUs controlled by this feature to provide uniform operating times for each rectifier PCU This rotation occurs from 1 365 days at midnight as selected by the user The base rectifier PCU is rotated decrementally through the group As an example first rectifier PCU 5 was on at all times at the programmed time interval rectifier PCU 4 is on at all times and at the next occurrence of the programmed time interval rectifier PCU 3 will be on at all times If energy manageme
27. 0 SAG586505500 Issue AZ April 7 2014 Connector Locations 586505000 586505500 Expansion Cabinet Co C Oo Oo Oo Oo Oo o Co C Front View Expansion Cabinet 19 Cabinet Shown Shelf Grounding Stud 10 32 RJ 45 System Network Ports Expansion Ports CO CO X 4 ES One Oo o Cc I Le T EM IRSE Se SEND Nus a SS a a USE Se Se Sn USED SED GER NER GUY etn O Rear View Expansion Cabinet 19 Cabinet Shown Access Opening and Cable Channel for Connections to I O Circuit Cards Page 57 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Connector Locations 586505000 586505500 Expansion Assembly 1 O Ports J19 OU U CO Uo 3 50 4 SS o0oo0000000000000000 S 18O 0000000000000000 33 000000000000000 00
28. 0 117 for 586505000 Textured Gray M500 147 for 586505500 3 Weight in Lbs Cabinet Net 17 Shipping 21 Circuit Cards Maximum Each Net 0 5 Shipping 1 5 4 Mounting Angles May Be Positioned Flush Front Mounting 5 Inch Front Projection Mounting or 6 Inch Projection Mounting TOP VIEW ja 22 250 o o o e 23 000 FRONT VIEW o o o e F pem p T le 6 000 E i 12 500 o o lt 13 250 gt REAR VIEW RIGHT SIDE VIEW Page 54 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Overall Dimensions 586505000 586505500 Expansion Assembly L l TOP VIEW 0 56 0 56 1 189 i gt LO m 3 96 E 4 878 d 5 500 go in l
29. 00 Power Systems order cable options per SAG582140000 or SAG582140001 or SAG582126100 Ordering Notes 1 Cable options include a standard length cable as specified in a or a customer specified length of cable as specified in b The customer must assemble the cable specified in b a Standard Length Cable Part No 421842700 a 6 foot long cable terminated at both ends with an RJ 45 plug Part No 509900 a 4 foot long cable terminated at both ends with an RJ 45 plug b Cable Only Part No 156202100 a category 5 four twisted pair conductor 24 AWG solid copper cable Specify length in 5 feet increments cable is provided uncut Also order termination kit specified in c c Cable Termination Kit Part No 483589500 consists of two RJ 45 plugs Page 23 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 130VDC Monitoring Wire Harness Features Cable harness to monitor 130VDC inputs via the LMS1000 List 20 Four 4 Input analog card providing a SELV input of 0 50mVDC
30. 00 Software Options or LMS1000 Specialty Interface Options installed OEMS3 VPS NPS Port RS 485 A 9 pin female D type jack is provided on the rear of the 586505000 586505500 cabinet This jack is used to connect LMS1000 to an MCA located in a Vortex Power System VPS or NETSURE power System NPS The port s function is also determined by the LMS1000 Software Options or LMS1000 Specialty Interface Options installed Refer to Table 5 for pin assignments F G LMS1000 Network Ports Four RJ 45 jacks are provided for interconnecting Expansion Cabinets and Expansion Assemblies into the LMS1000 network Refer also to Paragraph 1 3 Node Specifications Port Pin Number Application Input Output 1 P 2 Transmitted Data TxD Output from System 3 Received Data RxD Input to System 4 Data Set Ready DSR Output from System 5 Signal Ground Gnd 6 Data Terminal Ready DTR Input to System 7 Clear to Send CTS Input to System 8 Request to Send RTS Output from System 9 7 Note When List 88 is ordered the port on the front of the cabinet is inactive and the local port is redirected to OEM1 located on the rear of the cabinet The configuration of the OEM 1 port in this application is as shown in Table 2 List 88 cannot be used in conjunction with List 85 AC Analyzer Interface or List 86 TL1 X 25 Table 1 Front Panel Local Port 9 Pin Female D Type Jack Pin Assignments
31. 000 582140001 and 582126100 Page 31 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Available to all LMS1000 Users via the ALARMS NETSURE Commands Home e View Active VPS NPS System Alarms e View Active VPS NPS Subsystem Alarms e View Active VPS NPS MCA Alarms e View Active VPS NPS Shunt Alarms e View Active VPS NPS LVD Alarms Available to all LMS1000 Users via the SCAN NETSURE Commands e View VPS NPS System Status and Alarms System Output Voltage Total System Output Current Individual System Output Currents individual shunts Temperature Probe Values and Alarm Status System Alarms includes PCU and Temperature Probe alarms e View VPS NPS Subsystem Status and Alarms if installed Subsystem Output Voltage Total Subsystem Output Current Individual Subsystem Output Currents individual shunts Subsystem Alarms e View VPS NPS PCU Status Total PCU Current Individual PCU Currents e View VPS NPS Battery Status and Alarms if battery Shunt PODs installed
32. 0000 582140001 and 582126100 Power Systems Ordering Notes 1 Order one 1 List 62 to provide a front panel display and keypad in a 23 cabinet This option is factory installed if ordered with the system This option is also field installable 586505000 List 62 provides a new 23 off white front panel 586505500 List 62 provides a new 23 gray front panel List 63 LMS1000 Display Option for use in 586505000 586505500 23 cabinets Features Provides a front panel display and keypad Allows local access to the system without a terminal You can view plant voltage and load current view active alarms perform channel scans view the Events Log and Alarm Log view channel statistics and view battery discharge history Similar to List 61 that DOES NOT require the use of the 10th I O slot Restrictions Requires LMS1000 firmware 5 0 0 or later Requires use of the LMS1000 OEM2 Port CANNOT be used if List 84 ordered Not for use in 19 cabinets Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order one 1 List 63 to provide a front panel display and keypad in a 23 cabinet This option is factory installed if ordered with the system This option is also field installable Page 15 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems
33. 01 and 582126100 Power Systems Ordering Notes 1 Order one 1 List 94 a six foot cable terminated at one end with an RJ 45 plug and at the other end with a 9 pin male D type plug Note Another cable option would be P N 500819 which is a 1 75 cable terminated at one end with an RJ 45 plug and at the other end with a 9 pin male D type plug List BA Current Limit Resistor Kit Features Provides one 1 49 9 Ohm resistor pigtail assembly with a 3 8 ring lug Used to protect analog inputs as described under List 20 and List 22 description Can also be used to protect binary inputs as described under List 30 and 31 description Ordering Notes 1 Order as required List BB Current Limit Resistor Kit Features Provides one 1 49 9 Ohm resistor pigtail assembly with a splice connection Used to protect analog inputs as described under List 20 and List 22 description Page 20 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Can also be used to protect binary input
34. 505500 Main Cabinet For the 582140000 582140001 582126100 Node 00 is the grouping of LMS1000 I O cards installed in the Primary Bay Node 00 also includes the LED Function and Energy Management channels For both 586505000 586505500 and 582140000 582140001 582126100 you assign Node Numbers 21 89 to the groupings of LMS1000 I O cards installed in 586505000 586505500 Expansion Cabinets and 582140000 582140001 582126100 Secondary Bays during the Initial Start Up procedure e Input numbers for the LMS1000 MCA Interface are pre assigned The LMS1000 MCA Interface provides additional analog channels and binary channels These channels are dedicated to the LMS1000 MCA Interface and are automatically mapped to monitor predetermined MCA parameters The Node Number for the LMS1000 MCA Interface is 90 for all Vortex or NETSURE Power Systems except the Spec Nos listed next The Node Number for the LMS1000 MCA Interface to Spec Nos 582140000 582140001 and 582126100 NETSURE Power Systems is 99 e Input numbers for the LMS1000 Interface to Spec Nos 582140000 582140001 and 582126100 NETSURE Power System Bays are pre assigned The LMS1000 Bay Interface provides additional analog channels and binary channels These channels are dedicated to the LMS1000 Bay Interface and are automatically mapped to monitor predetermined parameters The Node Number for each Bay is 1 through 20 starting with the Primary Bay e The LMS1000 also provides self diagn
35. 60 volts DC The other set for connection of 50 mv shunts 100 mv shunts and 20 ma current loops 5 1 3 Channel to Channel Isolation 60 volts maximum Inputs are isolated from each other via an A D converter block operating from an isolated power supply 5 1 4 20ma Input Polarity Sensitive 5 1 5 Update Frequency Once every 4 seconds 5 1 6 Accuracy A Large Signal Inputs error in absolute volts 1 5to 60 VDC 25 C x0 04V 2 5to 60 VDC 40 C to 85 C x0 06V 3 O to 5 VDC 25 C x0 002V 4 0 to 5 VDC 40 C to 85 C 0 006V B Small Signal Inputs error as of transducer full scale 1 20 ma current loop transducers 40 C to 85 C 0 1 2 50 mv and 100 mv shunts 40 C to 85 C 0 1 5 2 Fight 8 Input Analog Circuit Card Part No 514528 5 2 1 General Adds eight 8 analog inputs to the system 5 2 2 Inputs Monitors 0 50 mv DC shunts Common mode voltage between inputs must not exceed 0 15 to 0 95 volts 5 2 3 Channel to Channel Isolation Not Provided All 8 channels are referenced to the CH 1 return lead TB1 2 5 2 4 Update Frequency Once every 2 seconds 5 2 5 Accuracy 40 C to 85 C 0 1 error as of transducer full scale 50mv 5 3 Twelve 12 Input Analog Circuit Card Part No 520838 5 3 1 General Adds twelve 12 analog inputs to the system 5 3 2 Inputs Monitors individual battery cell voltages 5 3 3 Update Frequency 10 seconds 5 3 4 Maximum Cell Voltage
36. 6100 added LPS Lorain AT LLP212240 Power System changed to NPS NETSURE 04 15 2009 John Jasko Power System Vortex Power System VPS changed to NETSURE Power System NPS AU tipoioag Updates Tor LMS Firmware 9 1 and MGA 05 10 2010 John Jasko version 2 2 AM LLP214281 Updates for LMS Firmware 10 1 11 11 2010 J Kirkpatrick AW LLP215817 Use new cable 548009 and 548010 06 03 2011 oo Khristebelle AX LLP215777 Update Tyco connector parts 07 06 2011 llagan AY LLP218383 LMS WEB pages updated 05 09 2013 John Jasko AZ LLP220044 LMS WEB pages updated V12 0 04 07 2014 John Jasko John Jasko Apr 17 2014 David Essi Apr 17 2014 Emerson Network Power Energy Systems North America Inc 4350 Weaver Parkway Warrenville IL 60555 Toll Free 800 800 1280 USA and Canada Telephone 440 246 6999 Fax 440 246 4876 es Web EmersonNetworkPower com EnergySystems EMERSON EnergyNet Secure EmersonNetworkPower com Network Power Page 62 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited
37. M500 117 3 Weight in Lbs Cabinet fh ee Net 17 b Shipping 21 Circuit Cards Maximum Each Net 0 5 Shipping 1 5 4 Mounting Angles May Be Positioned Flush E p Front Mounting 5 Inch Front Projection Mounting or 6 Inch Projection Mounting TOP VIEW e lt j i dd e e gla 9e us iod LEFT SIDE VIEW o e 9 o Jo o o le o n o Ke im 23 150 gt FRONT VIEW 5 000 0 000 l4 12 500 rrr la 13 250 Y RIGHT SIDE VIEW REAR VIEW Page 53 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Home Overall Dimensions 586505000 586505500 Main List 2 and Expansion List 7 Cabinets NOTES 1 All Dimensions are in Inches Unless Otherwise Specified 2 Finish Off White M50
38. MS1000 Display Option for use in earlier version 586505000 19 cabinets Features Provides a front panel display and keypad Allows local access to the system without a terminal You can view plant voltage and load current view active alarms perform channel scans view the Events Log and Alarm Log view channel statistics and view battery discharge history Restrictions There are two kits offered for the 19 cabinet One kit is used with the earlier version cabinet the other for the later version cabinet 586505000 List 1 cabinets manufactured on or before 3 21 03 use kit P N 524354 586505000 List 61 586505000 List 1 cabinets manufactured after 3 21 03 use kit P N 524353 586505000 List 60 The later version cabinet has been modified to allow the LMS1000 Display Interface circuit card to be plugged into the 10 LMS1000 I O circuit card mounting slot To determine exactly which kit is compatible with your 19 cabinet look at the LMS1000 I O circuit card backplane connectors If all backplane connectors are Page 14 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No
39. Messages When used in a TL1 network each user is provided with the capability of receiving TL1 report messages pertaining only to channels that the user has selected These messages are delivered by the LMS1000 to the user via the TL1 port These messages are A Report Alarm Messages A Report Alarm message is issued when a user channel configured with the notification code attribute CR MJ or MN alarms or retires B Report Event Messages A Report Event message is issued when a user channel configured with the notification code attribute NA alarms or retires C Report Condition Messages A Report Condition message is a periodic report on all alarms for user channels configured with the notification code CR MJ MN or NA that have not cleared since the last report was issued If the report condition interval is set to a value of zero this type of report message is disabled 1 5 6 TL1 over Ethernet Software Option if installed Same as TL1 X 25 Software Option see Paragraph 1 5 5 except TL1 support is provided via the LMS1000 Ethernet port 1 5 7 LMS Dual MCA Interface Software Option if installed This option allows a Spec No 582140000 582140001 and 582126100 NETSURE Power System NPS to be integrated with an existing Vortex Power System Requires LMS Firmware version 9 0 1 2 or later The option allows system control and monitoring functions to be performed through a single controller System related da
40. Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 2 5 2 Provides read only access to view plant voltage and load current view active alarms Home perform channel scans view the Events Log and Alarm Log view channel statistics and view battery discharge history 2 5 3 Requires LMS1000 firmware version 5 0 0 or later 2 5 4 List 60 and List 62 require I O card slot 10 List 61 and List 63 use an interconnect harness in lieu of the 10th I O slot 2 5 5 Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems 2 6 Optional Modem Circuit Card Part No 508951 2 6 1 General Provides for remote communications at 56K bps 2 6 2 Compatible with CCITT V 22 Bell 212A and Bell 103 standards 2 6 5 DTMF and pulse dialing 2 6 4 FCC Part 68 Registered 2 6 5 Theory of Operation Refer to Figure 1 for a flow diagram depicting modem operation Note Additional features i e error control data compression etc supported by remote modem must be deactivated Refer to operating manual supplied by modem manufacturer Page 46 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Appli
41. North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 586505000 List 63 provides a new 23 off white front panel Home 586505500 List 63 provides a new 23 gray front panel List 70 Modem Circuit Card Features e Provides for remote communications up to 56K BPS An RJ 11 jack for telephone line connection is provided on the rear of the 586505000 586505500 cabinet In a Spec No 582140000 582140001 and 582126100 Power System the RJ 11 jack located on the circuit card is used Plugs onto the Main CPU circuit card Refer to the Specifications section of this document for further information Restrictions For use in a 586505000 586505500 Main Cabinet or 582140000 582140001 582126100 Primary Bay only Required for remote terminal or pager alarm notification via the System Alarm Reporting and or Individual User Alarm Reporting mechanisms Ordering Notes 1 Order a List 70 modem circuit card if remote communications and or alarm reporting over a telephone line is required List 78 LMS Dual MCA Interface Software Option Features Allows the MCA in a Spec No 582140000 582140001 or 582126100 NETSURE Power System NPS to interface with the MCA in a Vortex
42. OEM2 Port CANNOT be used if List 60 61 62 or 63 ordered Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 84 as required List 85 AC Analyzer Interface Features e LMS1000 reads and records values from the AC Analyzer Refer to the Specifications section of this document for further information Restrictions Interfaces to a Dossena AC Analyzer Model MV3DL only AC Analyzer Port is provided via the LMS1000 OEM1 Port CANNOT be used if List 79 List 86 or List 88 ordered Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 85 as required List 86 TL1 X 25 Software Option Features Provides a TL1 X 25 Interface and RS 232 Port with PAD support Refer to the Specifications section of this document for further information Restrictions TL1 X 25 Port is provided via the LMS1000 OEM1 Port CANNOT be used if List 79 List 85 List 88 or List 90 ordered Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 86 if TL1 X 25 is required see also List 90 for another TL 1 option Page 18 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written
43. RS 232 Configured as DCE Page 43 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Home Port Pin Number Application Input Output Received Data RxD Input to System Transmitted Data TxD Output from System Data Terminal Ready DTR Output from System Signal Ground Gnd Data Set Ready DSR Request to Send RTS Input to System Output from System Clear to Send CTS Input to System jo Oo O1 2 w rhy Table 2 OEM1 Port 9 Pin Female D Type Jack Pin Assignments RS 232 Configured as DTE Port Pin Number Application Input Output Data Carrier Detect DCD Input to System Received Data RxD Input to System Transmitted Data TxD Output from System Data Terminal Ready DTR Output from System Signal Ground Gnd Data Set Ready DSR Input to System Request to Send RTS Output from System Clear to Send CTS Input to S
44. Set VPS NPS System Float Voltage Setting e Set VPS NPS System Test Equalize Voltage Setting e Set VPS NPS System High Voltage Shutdown Setting e Set VPS NPS System Current Limit Setting e Set VPS NPS Low Voltage Disconnect Disconnect Settings for all Installed LVDs e Set VPS NPS Low Voltage Disconnect Reconnect Setting e Manually Reconnect a Specified LVD e Set VPS NPS PCU Fan Speed fast slow e Set VPS NPS PCU Load Share Alarm on off e Set VPS NPS PCU State on off e Set VPS NPS Digital Battery Charge Temperature Compensation Source Highest Averaged Probe 1 e Set VPS NPS Battery Overcurrent Alarm Setting e Set VPS NPS Digital Battery Charge Temperature Compensation Slope Min Voltage Max Voltage e Set VPS NPS Battery Current Limit e Set VPS NPS Test Eq Timeout e Set VPS NPS Individual PCU Custom Text Messages e Set VPS NPS Custom Text Message for MCA e Set VPS NPS Interface on off Available to LMS1000 Users with Access to Level 6 Commands via the DOWNLOAD NETSURE DOWNLOAD TFTP NETSURE UPLOAD NETSURE and UPLOAD TFTP NETSURE Commands respectively e Download the Configuration of the VPS NPS to an ASCII File e Upload a Previously Downloaded Configuration to the VPS NPS Each task supported by the MCA Interface is listed below for NPS Power Systems Spec Nos 582140000 582140001 and 582126100 Available to LMS1000 Users with Access to Level 2 Commands via the PRCONFIG NPS Commands e View NPS Syste
45. Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Digital Temperature Compensation Minimum Voltage Home Battery Current Limit Relay Test Time Test Equalize Timeout Low Voltage Disconnect Disconnect for each installed LVD Low Voltage Disconnect Reconnect for all installed LVDs Temperature Probes Alarms View VPS NPS Equipment Inventory PCUs System Shunts Subsystem Shunts Battery Shunts LVDs Temperature Probes Vacant PCU Mounting Positions Maximum System Current Capacity System Operating Mode Float or Equalize forced manual timed auto Temperature Compensation Mode None Analog Digital Highest Averaged Probe 1 MCA Customer Text Message custom name Spec No Serial No Software Version Each PCU Customer Text Message custom name Spec No Serial No Output Voltage Rating Current Rating Available to Indicated LMS1000 Users via the SET NETSURE Commands LMS1000 Users with Access to Level 4 Commands Set VPS NPS NAG Minutes Audible Alarm Cutoff Reset Time Period LMS1000 Users with Access to Level 5 Commands Set VPS NPS System High Voltage Alarm 1 Setting Set VPS NPS System High Voltage Alarm 2 Setting Set VPS NPS System Battery On Discharge Alarm Setting Set VPS NPS System 50 Battery On Discharge Alarm Voltage is Very Low Alarm Setting Set VPS NPS System Overcurrent Alarm Setting Set VPS NPS Subsystem High Voltage Alarm Setting if installed Set VPS NPS Subsystem Low Voltage A
46. Temperature Compensation Slope Setting View NPS Temperature Compensation Maximum Voltage Setting View NPS Temperature Compensation Minimum Voltage Setting View NPS Inventory Available to Indicated LMS1000 Users via the SET NPS Commands LMS1000 Users with Access to Level 4 Commands Set NPS NAG Minutes Audible Alarm Cutoff Reset Time Period LMS1000 Users with Access to Level 5 Commands Set NPS System Battery On Discharge Alarm Setting Set NPS System Voltage is Very Low Alarm Setting Set NPS System High Voltage Alarm 1 Setting Set NPS System High Voltage Alarm 2 Setting Set NPS System Total Load Current Alarm Setting Set NPS System Group A Load Current Alarm Setting Set NPS System Group B Load Current Alarm Setting Set NPS Relay Test Time Setting Set NPS System High Temperature Alarm 1 Setting Set NPS System High Temperature Alarm 2 Setting Set NPS System Low Temperature Alarm 1 Setting Set NPS System Low Temperature Alarm 2 Setting Set NPS System Power Share Capacity Setting LMS1000 Users with Access to Level 6 Commands Set NPS System Operating Mode Float or Test Equalize Turn any Installed NPS PCU On or Off TR Feature Set NPS MCA Remote Access Password Set Custom Text Messages for NPS Elements Set NPS System Float Voltage Setting Set NPS System Test Equalize Voltage Setting Set NPS System High Voltage Shutdown Setting Set NPS System Current Limit Setting Perform a Relay Test Set NPS Manual Test Equalize Time Sett
47. This feature allows the customer to easily determine the maximum load percentage that has occurred versus an analog channel alarm limit This feature divides the maximum peak value of an analog input and the highest hourly average into a designated alarm limit and presents the results as percentages These percentages inform the customer how close a channel s peak and high hourly average values are in relation to its alarm limit s Battery Discharge Timer The LMS1000 can record Battery Discharge History A Binary LED or Relay channel must be identified to monitor the On Battery condition Analog or Function channels must be identified to monitor the Plant Voltage and Plant Load The Battery Discharge Timer feature displays the last 50 recorded discharges in a tabular format The information displayed includes the duration of the battery discharge the time and date at which the discharge began the lowest recorded plant voltage during the discharge and the average plant load Battery Thermal Runaway In a VPS NPS the LMS1000 is capable of overriding system output voltage controlled by the MCA to avoid thermal runaway MCA Interface The MCA Interface allows an LMS1000 User to communicate with the MCA located in a Vortex Power System VPS or a NETSURE Power System NPS This allows a User to monitor adjust and control the VPS NPS via LMS1000 This interface also enables LMS1000 to control the PCUs in the Power System via the features ava
48. a RxD Input to System 4 z 5 Signal Ground Gnd 6 m 7 8 9 2 5 2 4 9 2 4 10 2 4 11 2 4 12 Table 5 OEMSG Port 9 Pin Female D Type Jack Pin Assignments RS 485 Configured as DCE Controls and Indicators The following controls and indicators are provided on the CPU circuit card Refer to the Operating Chapter in the User Instructions Section 5847 for descriptions and locations A Eight Programmable LED Indicators Programmable for illumination event and color red amber or green B One Programmable Switch can be used in program lines C One CPU Reset Pushbutton Switch D One CPU Hardware Fail LED Indicator E One Power On Low Lithium Battery LED Indicator External CPU Hardware Fail Alarm Contacts A single set of Form C relay contacts change state when a hardware failure activates one or more of the hardware fail channels In the LMS1000 these channels are B0081 through B0099 These contacts are rated for 0 6A at 125 VAC 0 5A at 110 VDC and 2 0A at 30 VDC Watchdog Circuit A watchdog circuit constantly monitors program execution and issues a system reset if it appears the processor is lost If the processor is still not functioning after the first reset the circuit automatically shuts down the system by performing a permanent system reset This permanent reset can be cleared by momentarily depressing the CPU RST reset pushbutton switch Memory Backup Batt
49. a MCA interconnect cable if required per List 92 and List 93 or List 94 10 Order Front Panel Display option as required per List 62 or List 63 11 Order Accessories as required per the ACCESSORY section List 6 Common Equipment for One 1 LMS1000 Expansion Cabinet Features Provides one 1 LMS1000 EXPANSION CABINET 19 23 relay rack mounting off white Refer to the Specifications section of this document for further information Restrictions Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order 586505000 List 6 off white 2 Order Analog Circuit Cards as required per List 20 and List 22 3 Order Temperature Circuit Cards as required per List 21 4 Order Binary Circuit Cards as required per List 30 and List 31 5 Order Relay Circuit Cards as required per List 40 List 7 Common Equipment for One 1 LMS1000 Expansion Cabinet Features Provides one 1 LMS1000 EXPANSION CABINET 23 only relay rack mounting 586505000 off white 586505500 gray e Refer to the Specifications section of this document for further information Restrictions Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order 586505000 List 7 off white or 586505500 List 7 gray Order Analog Circuit Cards as required per List 20 and List 22 Order Temperature Circuit Cards as required per List 21 AU N Or
50. a single function channel Examples are using the data from various analog channels to obtain load sums and averages or multiplying two channels together to obtain a power value Each of the function channels has four adjustable alarm limits that can be programmed to report an alarm condition or record this condition for statistical purposes LED Channels Eight programmable status LED indicators are provided on the front of the Main CPU card These LEDs can be programmed to illuminate red green or amber via the LED channels at specific events or occurrences Relay Channels Each relay channel can be programmed to activate or deactivate the associated relay at a specific event or occurrence or to be associated to an energy management channel when the energy management and or sequencing option is ordered Note Relay channels are not required when the energy management and or sequencing option is used to control VPS NPS PCUs Groups The group feature permits organizing analog binary function LED relay and energy management channels together under one common name as a group Each group is programmed with a unique name and may contain any or all channels This feature enables the user to extract information concerning the group such as alarm reports and statistics by using the group name or number instead of each individual channel name Alarm Reporting The system can be programmed to activate an alarm when the monitored activity co
51. al alarm by de energizing the system alarm relay connected to it All relays configured for alarm cut off are de energized by issuing a command Another command can be issued to cancel alarm cut off This feature operates by masking preventing existing analog and binary alarm conditions from affecting a relay s control program These alarms are considered cancelled and no longer figure into the evaluation of the relay s control program Any cancelled alarm that clears and then turns in again DOES have the ability to affect a relay s operation A relay channel attribute termed the Cycle Frequency is designed for use with external alarm circuitry that has its own alarm cut off More specifically this is for applications where an external ACO has silenced an audible alarm but it is desired to have it turn in again after a preset amount of time The cycle frequency allows energized system relays to temporarily turn off for 15 seconds thus providing another open to close transition to turn in the audible alarm again 1 4 41 Information Pages Three user programmable information pages or screens can be entered in the system These information pages can be viewed by any user These pages can serve as a note pad or location of instructions for users 1 4 12 Status Pages Sixteen user programmable status pages or screens can be formatted in the system These pages permit the displaying of scan information derived from separate Page 30 of 62 T
52. analog circuit cards installed Ordering Notes 1 Order one 1 List 20 analog circuit card for every four 4 analog points to be monitored using LMS1000 Order current limit resistor kits as required per List BA BB and BC Order in line fuse kits as required per List BE BF or P N 535135 Also available is a 130VDC Monitoring Wire Harness See ACCESSORY INFORMATION section for description Order one 1 P N 520839 130VDC Monitoring Wire Harness per 130VDC input to be monitored as required kW N Page 10 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 List 21 Eight 8 Input Temperature Circuit Card Home Features Monitors temperature probe inputs Each circuit card provides eight 8 temperature inputs to the system mapped as analog channels Refer to the Specifications section of this document for further information Restrictions Not for use in Expansion Assemblies Maximum number of temperature points that can be monitored is dependent on ho
53. annot be changed When answering the data rate of the internal modem switches to match the incoming call When reporting the modem data rate will be set to the speed that is programmed in the user configuration of the user being called When the modem performs a callback it will call at the speed it answered at A user can also interface with LMS1000 via a Telnet session The LMS1000 presently supports only one Telnet session at a time To support a Telnet session or MIB browser access the unit s IP address must be set using the IP command Security When a user logs onto the system the user is prompted to enter a User Password User configurations provide a User Access Level which can be used to limit the commands available to a particular user through the local and remote ports The SNMP feature does not support multiple access levels Added security for Ethernet connections is provided via the user configurable Host address list Unit Identification Each LMS1000 can be uniquely identified through a programmable unit name unit number system identifier TL1 option unit header and unit pager code Each LMS1000 is uniquely identified through a programmable unit TCP IP address Alarm Classes The alarm class feature allows easier relay and LED programming and helps classify and identify alarms in system reports and scans There are eight alarm classes numbered 1 through 8 available Individual channel alarms Analog Bina
54. applied voltage of 2 0 volts or less is defined as the CO contact open state Voltages between 2 0 and 12 volts are undefined 5 5 5 Alarm State Either the CC or CO state may be configured as the alarm state 5 6 Four 4 Output Form C Relay Circuit Card Part No 506335 5 6 1 General Adds four 4 Form C relay output contacts to the system 5 6 2 Relay Contacts 4 sets 5 6 3 Contact Arrangement Form C 5 6 4 Contact Rating Contacts are rated for 0 6A at 125 VAC 0 5A at 110 VDC 2 0A at 30 VDC 5 6 5 Channel to Channel Isolation 177 volts maximum 5 7 Eight 8 Input Temperature Circuit Card Part No 506333 5 7 1 General Adds eight 8 temperature inputs to the system 5 7 2 Accuracy 0 5 C from 10 C to 85 C Page 52 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 PHYSICAL SIZE INFORMATION Em Overall Dimensions 586505000 Main List 1 and Expansion List 6 Cabinets NOTES 1 All Dimensions are in Inches Unless Otherwise Specified 2 Finish Off White
55. as required per List 80 List 84 and or List 85 0 1 List 2 Common Equipment for the LMS1000 Main Cabinet Features Provides the LMS1000 MAIN CABINET 23 only relay rack mounting 586505000 off white 586505500 gray e Refer to the Specifications section of this document for further information Restrictions Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order 586505000 List 2 off white or 586505500 List 2 gray 2 Order Analog Circuit Cards as required per List 20 List 22 and List 23 3 Order Temperature Circuit Cards as required per List 21 a A Order Relay Circuit Cards as required per List 40 Order Modem Circuit Card as required per List 70 N O Order Binary Circuit Cards as required per List 30 and List 31 Order Specialty Interfaces as required per List 80 List 84 and or List 85 Page 8 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 9 Order
56. cation Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Report to be Made Modem goes Off Hook Give Reports Terminate Call Attempt Modem goes Dial Tone Detected On Hook within 5 Seconds Report Attempt Failed More Reports to Make YES Dial Phone Number Attempt Remote Modem Logon See Remote Modem Logon Procedure Sheet 3 Remote Logon Successful Terminate Command up Communication Mode B Session Terminate Call Attempt Modem goes On Hook Report Attempt Failed Answer Tone Detected within 1 Minute Attempt to Establish Communication with Remote Modem Terminate Call Attempt Modem goes Communications On Hook Established Report Attempt Failed Figure 1 Sheet 1 of 3 Modem Operation Modem Calling Procedure Page 47 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Ring Signal Det
57. chnology Equipment for use in Telephone Electronic Data Processing or Information Processing Equipment B This unit meets the requirements of CSA 22 2 No 950 and is tested and Certified by UL c UR for use in Telephone Electronic Data Processing or Information Processing Equipment 1 2 Firmware Specifications Note If connected to an MCA the MCA Interface provides additional analog and binary channels These channels are dedicated to monitor predetermined MCA parameters 1 2 1 The unit supports multiple Users logged in at a time except as noted in B below A The unit supports fixed IP addresses and does not support the DHCP protocol B The unit supports a single TELNET session 1 2 2 Users 8 maximum 1 2 3 Analog Channels 700 maximum and MCA interface channels 1 2 4 Binary Channels 700 maximum and MCA interface channels 1 2 5 Function Channels 64 maximum 1 2 6 Relay Channels 100 maximum 1 2 7 LED Channels 8 maximum 1 2 8 Energy Management Channels 80 maximum 1 2 9 Groups of Channels 8 maximum 1 2 10 Information Pages 3 maximum 1 2 11 Status Pages 16 maximum 1 2 12 Programmable Commands 8 maximum 1 3 Node Specifications 1 3 1 Maximum Number of Nodes Supported 25 1 3 2 Maximum Length of Node Cabling A Node to Node 250 Meters B Total Wire Length of All Node to Node Segments 450 Meters 1476 Feet This is the maximum length of the entire LMS100 Network and is calcula
58. commercial AC is restored The timer starts when a signal is received indicating that the commercial AC is restored The standby sequencer if configured operates normally until the timer expires When the timer expires all rectifiers PCUs are turned off and the AC sequencer starts If AC fails before the timer expires the timer is deactivated Note The AC Restoration Qualification Timer feature should be set to a few seconds less than the actual amount of time required for a proper transfer Note Setting the AC Restoration Qualification Timer to zero 0 disables this feature TL1 X 25 Software Option if installed LMS1000 can operate as a Network Element NE in a Network Maintenance and Administration NMA system An NMA is an Operations System OS developed by Bell Communications Research Bellcore This software option provides support to the specific TL1 commands and messages listed in the Commands Chapter of the User Instructions Section 5847 This option also provides an asynchronous RS 232 port connection The port is designed to provide an interface to a network device which converts the asynchronous output to X 25 packets The packets can then be sent out across the network to an operations center or user console The terms Access Identifier LMS1000 Access Identifier and LMS1000 Sub Access Identifier are described as follows Access ldentifier In a Network Maintenance and Administration NMA system a unique access iden
59. d 41 Shunt Input Channel 7 17 not used 42 Shunt Input Channel 6 18 Binary Input Channel 5 43 Shunt Input Channel 4 19 Binary Input Channel 7 44 Shunt Input Channel 3 20 Binary Input Channel 2 45 Shunt Input Channel 1 21 Battery Return 46 not used 22 Battery 47 not used 23 Shunt Input Channel 8 48 not used 24 Shunt Input Channel 7 49 not used 25 Shunt Input Channel 5 50 not used Page 59 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Home NNECTOR NNECTOR eerie FUNCTION Sa ee FUNCTION 1 Shunt Input Channel 23 26 Shunt Input Channel 12 2 Shunt Input Channel 22 27 Shunt Input Channel 9 3 Shunt Input Channel 20 28 Shunt Input Channel 9 4 Shunt Input Channel 19 29 not used 5 Shunt Input Channel 17 30 not used 6 Shunt Input Channel 17 31 not used 7 Shunt Input Channel 15 32 not used 8 Shunt Input Channel 14 33
60. d connects to an RJ 11 phone jack located on the rear of the system cabinet for customer phone line connection C Ethernet Port A rear panel RJ 45 10BaseT jack is provided This jack has a standard Ethernet pin configuration scheme twisted pair D OEM1 Port RS 232 A 9 pin female D type jack is provided on the rear panel of the 586505000 586505500 cabinet This jack is configured as a DTE Data Terminal Equipment Refer to Table 2 for pin assignments The port s function is determined by the LMS1000 Software Options or LMS1000 Specialty Interface Options installed Page 42 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 E OEM2 Port RS 232 RS 422 A 9 pin female D type jack is provided on the rear Home of the 586505000 586505500 cabinet This jack is configured as a DTE Data Terminal Equipment This port is software selectable to provide either an RS 232 or an RS 422 connection Refer to Tables 3 and 4 for pin assignments The port s function is determined by the LMS10
61. der Binary Circuit Cards as required per List 30 and List 31 Order Relay Circuit Cards as required per List 40 c1 Page 9 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 List 10 Common Equipment for Home One 1 LMS1000 Expansion Assembly Features Provides one 1 LMS1000 EXPANSION ASSEMBLY Refer to the Specifications section of this document for further information Restrictions The Expansion Assembly analog inputs can only be used for 50mV shunts on the same discharge bus None of the 24 inputs on any given Expansion Assembly may exceed 0 15 to 0 95 V between inputs Each of the 8 binary channels are only activated by a 48V signal typical of a fuse alarm bus Ordering Notes 1 Order as required to monitor fixed points outside an Emerson Network Power Power System 2 Order LMS1000 network cables as required per the ACCESSORY section 3 Also order the following as required to terminate customer wiring to the J18 J19 D type connectors provided on the a
62. e LMS1000 Expansion firmware a power supply circuit and communications circuits 3 4 2 Processor TMPN3150 10MHz 3 4 3 SRAM Data 32K bytes 3 4 4 Flash System 128K bytes 3 4 5 LMS1000 Network Ports Four RJ 45 jacks are provided for interconnecting Expansion Cabinets and Expansion Assemblies into the LMS1000 network 3 4 6 Controls and Indicators The following controls and indicators are provided on the CPU circuit card Refer to the Operating Chapter in the User Instructions Section 5847 for descriptions and locations A One Power On LED Indicator B One CPU Fail LED Indicator C One CPU Hardware Reset Pushbutton Switch 4 586505000 586505500 LMS1000 EXPANSION ASSEMBLY 4 1 4 2 4 3 4 4 Input Ratings 4 1 1 Input Voltage Range 20 60 Volts DC 4 1 2 Maximum Input Current 0 2 Amperes Mounting 4 2 1 Customer mounted See Overall Dimensions Expansion Assembly under PHYSICAL SIZE INFORMATION section for details I O Connector Pinouts 4 3 1 See Connector Locations Expansion Assembly under PHYSICAL SIZE INFORMATION CPU Circuit P O Part No 507606 4 4 1 General The CPU circuit contains the Expansion Assembly s firmware a power supply circuit and communications circuits 4 4 2 Processor TMPN3150 10MHz 4 4 3 SRAM Data 32K bytes 4 4 4 Flash System 128K bytes 4 4 5 X Analog Inputs Provides twenty four 24 50mv shunt inputs 0 1 from 40 C to 65 C Page 50 of 62 Thi
63. e Number I O grouping prefix and an input output number Remember a particular channel s type Page 26 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 designation and input output number is identical to that of the input or output Home associated to it e Installed optional LMS1000 I O circuit cards in the 586505000 586505500 Main Cabinet or 582140000 582140001 582126100 Primary Bay and each 586505000 586505500 Expansion Cabinet or 582140000 582140001 582126100 Secondary Bay are automatically detected by LMS1000 firmware Inputs and outputs are automatically assigned consecutive numbers per cabinet or bay for each type detected starting with the circuit card of that type installed in the left most position as viewed from the front Types are A for analog B for Binary and R for relay Temperature inputs are mapped to analog channels The Node Number is a fixed number for the 586505000 586505500 Main Cabinet Node 00 and includes all I O s associated to the 586505000 586
64. ected by Modem Card Programmed No Further Number of Action Tak Rings Detected SONL Anen Modem goes Off Hook Carrier Detected Attempt to Establish Communications YES within 1 Minute Communication with Established Remote Modem 2 Terminate Answer Attempt Prompt User for Modem goes Logon Password On Hook Figure 1 Sheet 2 of 3 Modem Operation Modem Answer Procedure Page 48 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Continued from Modem Calling Procedure Sheet 1 Output Logon Prompt ENTER PASSWORD Carriage Return Detected within 10 seconds NO Remote Logon Unsuccessful Password Entry Attempt lt 3 Valid Password Detected Remote Modem Logon Successful Figure 1 Sheet 3 of 3 Modem Operation Remote Modem Logon Procedure Page 49 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and con
65. ectively e Download the Configuration of the NPS to an ASCII File e Upload a Previously Downloaded Configuration to the NPS 1 4 24 IP Parameters A The system IP address can be set B The Gateway Address can be set and listed C The Netmask Address can be set and listed 1 4 22 WEB Interface e Allows you to access the LMS1000 over the Internet via a WEB Browser e Displays LMS status statistics logs and inventory in WEB pages e Displays User configurable status pages and channel groups in WEB pages e Edit pages for basic LMS settings channel configuration and control programs e Requires Google Chrome version 24 0 1312 57 or later Firefox version 18 0 2 or later or Microsoft Internet Explorer version 7 0 or later e Requires LMS1000 with firmware version 11 0 0 0 or later 1 4 23 SNMP LMS1000 supports SNMP Simple Network Management Protocol interface in a TCP IP network Communications to and from LMS1000 is accomplished via a MIB Management Information Base browser An Ethernet port is provided for this network connection A SNMP Alarm Reporting via the Ethernet Port All system alarms are reported via the SNMP interface Alarms sent via SNMP traps can be configured for three different types These are 1 TRAPS OCCURRED selects reporting of new system alarms that have occurred 2 TRAPS RETIRED selects reporting of system alarms that have cleared 3 TRAPS PERSISTENT selects periodic reporting of sys
66. em are MCA Customer Alarm Relay circuit cards Refer to SAG582140000 SAG582140001 and SAG582126100 Ordering Notes 1 Order one 1 List 40 relay circuit card for every four 4 relay contacts to be provided by LMS1000 List 60 LMS1000 Display Option for use in later version 586505000 19 cabinets Features Provides a front panel display and keypad Allows local access to the system without a terminal You can view plant voltage and load current view active alarms perform channel scans view the Events Log and Alarm Log view channel statistics and view battery discharge history Restrictions Page 13 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 There are two kits offered for the 19 cabinet One kit is used with the earlier version cabinet the Home other for the later version cabinet 586505000 List 1 cabinets manufactured on or before 3 21 03 use kit P N 524354 586505000 List 61 586505000 List 1 cabinets manufactured after 3 21 03 use kit P N 524353
67. ened in Customer Specified Length Illustration List 70 Modem Circuit Card List 93 VPS MCA Interface Cable MAIN CABINET ONLY Termination Kit List 94 VPS MCA Interface Cable Pre Assembled 6 Standard Software Features Available Specialty Interfaces WEB Interface List 80 Door Access Controller SNMP Interface Determines Earlier vs Later List 84 External GPS Modem Version 19 Cabinets Available Software Options mena List 78 LMS Dual MCA Interface List 85 AC Analyzer Interface Software Option List 79 Gateway Port Software Option Front Panel Display Option O Slot 10 has a List 82 PCU Rectifier Sequencing List 60 for use in later Larger 30 pos Software Option List 83 Energy Management Software Option List 86 TL1 X 25 Software Option List 87 Power Metering Software Option List 88 Local Port Redirection List 90 TL1 over Ethernet Software Option version 19 cabinets Connector List 61 for use in earlier version 19 cabinets lO Slot 10 is the List 62 for use in 23 cabinets als gaia Other UO requires 10th I O slot oR List 63 for use in 23 cabinets DOES NOT require 10th I O slot Page 4 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network P
68. ent e LMS1000 easily interfaces with the MCA of Vortex Power Systems VPS and NetSure Power Systems NPS This interface allows an LMS1000 user to remotely monitor adjust and control the Power System via LMS1000 plus easily use the features of LMS1000 with the Power System Separate analog binary and relay circuit cards do not have to be supplied for this interface Analog binary relay and temperature circuit cards I O cards can be provided to monitor equipment external to the Power System In a VPS NPS one simple cable connection between the Main Cabinet and the VPS NPS completes the interconnections required Note that the LMS1000 is factory integrated into Spec Nos 582140000 582140001 and 582126100 NetSure Power Systems Note that Spec Nos 582140000 582140001 and 582126100 NetSure Power Systems do not use the LMS1000 Cabinets The LMS1000 is factory integrated into the Power Systems Note that LMS1000 I O circuit card mounting positions are provided inside a 582140000 582140001 and 582126100 NetSure Power System e LMS1000 can be accessed via a local port a modem port when optional modem is ordered an optional TL1 port and an Ethernet port for Telnet access Web access SNMP access optional TL1 access and Email alarm reporting A local front panel display option is also available e Available software options include Power Metering Energy Management Rectifier PCU Sequencing TL1 X 25 TL1 over Eth
69. ential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 LIST DESCRIPTIONS List 1 Common Equipment for the LMS1000 Main Cabinet Features Provides the LMS1000 MAIN CABINET 19 23 relay rack mounting off white Refer to the Specifications section of this document for further information Restrictions Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order 586505000 List 1 off white Order a MCA interconnect cable if required per List 92 and List 93 or List 94 10 Order Front Panel Display option as required per List 60 11 Order Accessories as required per the ACCESSORY section 2 Order Analog Circuit Cards as required per List 20 List 22 and List 23 3 Order Temperature Circuit Cards as required per List 21 4 Order Binary Circuit Cards as required per List 30 and List 31 5 Order Relay Circuit Cards as required per List 40 6 Order Modem Circuit Card as required per List 70 7 Order Software Options as required per List 78 79 81 82 83 86future release 87 88 89 and or 90 8 Order Specialty Interfaces
70. er Instructions Section 5879 LMS1000 Installation Instructions Section 5877 582140000 NetSure Power System User Instructions Section 5876 582140000 NetSure Power System Installation Instructions Section 6016 582140001 NetSure Power System User Instructions Section 6017 582140001 NetSure Power System Installation Instructions Section 6027 582126100 NetSure Power System User Instructions Section 6028 582126100 NetSure Power System Installation Instructions Section 5942 586505000 List 60 and 586505000 586505500 List 62 Front Panel Display Option Instructions Section 5943 586505000 List 61 and 586505000 586505500 List 63 Front Panel Display Option Instructions Section 5944 LMS1000 I O Circuit Cards Installation Instructions Page 61 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 REVISION RECORD Home Change Issue Number Description of Change Date Approved ECO LMS Dual MCA Interface Software Option added Spec No 58212
71. ernet Gateway Port LMS Dual MCA Interface Note LMS1000 Energy Management and Sequencing features are not for use in the Spec Nos 582140000 582140001 and 582126100 Power Systems e Available specialty interfaces include Door Access Controller Interface External GPS Modem Interface AC Analyzer Interface Page 2 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Home Family NetSure Spec No 586505000 and 586505500 Model LMS1000 Agency Approval UL Recognized to UL 1950 CSA 22 2 No 950 Framework Type Main and Expansion Cabinets Mounted in a Customer Provided 19 or 23 Inch Wide Rack Mounting Width Main and Expansion Cabinets 19 or 23 Inch Relay Rack Mounting Mounting Depth Main and Expansion Cabinets 13 250 Inches Mounting Height Main and Expansion Cabinets 3 470 Inches Access Front and Rear for Installation and Maintenance Front for Operation Color 586505000 Off White 586505500 Textured Gray Environment 40 C to 60 C 40 F to 140 F
72. ery All of the information that is programmed by the customer is stored in RAM memory on the CPU circuit card When power is removed the real time clock and RAM memory are backed up by a lithium battery and a 1 farad capacitor The capacitor actually serves two purposes First when the memory and clock are on backup power the capacitor supplies the load for about 20 minutes before the battery takes over This reduces the drain on the battery which helps lengthen its life Second when a battery is removed the capacitor continues to supply power until the new battery is installed Thus the contents of the clock and memory are preserved while the lithium battery is being replaced LMS1000 Front Panel Display Option 2 5 1 Provides a front panel vacuum florescent display VFD and keypad e The VFD is a 4 line 20 character display e The keypad consists of 12 keys numbers 0 through 9 ENTER and MENU The following numeric keys also function as arrow keys 2 UP 8 DOWN 4 LEFT 6 RIGHT Page 45 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000
73. his document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 channels on a single page format SCAN information includes the present value and Home 1 4 13 1 4 14 1 4 15 1 4 16 1 4 17 1 4 18 1 4 19 1 4 20 alarm status of a channel plus other pertinent information Programmable Commands Eight user programmable commands can be entered in the system A programmable command combines up to eight standard commands into a single command which then can be executed by typing the name given to the programmable command Mail Users have the ability to send mail messages to other users or to themselves Alarm Log The system stores a listing of the 500 latest alarms that have occurred Event Log The system stores a listing of the 500 latest events that have occurred Analog Channel Maximum Load Percentages Rate Report This feature determines how plant battery and rectifier capacities and other sizing limits fuses circuit breakers and wire sizes are faring under actual load conditions
74. ication via LMS1000 is delayed until the Gateway session is terminated and control is returned to the LMS1000 e With the exception of session inactivity monitoring any related communications protocol control i e character echoing will be performed by the device connected to the Gateway port e Third party software utilized to communicate with a Gateway Port device will need to first logon to the LMS1000 and enter the CONNECT command The only exception to this is when the Gateway Port is set to operate in the Global mode and a Global command is issued e The LMS1000 will not support any third party proprietary communications protocol required to communicate with customer equipment connected to the Gateway port Power Metering Software Option if installed This option allows accurate metering of power consumed by equipment connected to your power plant This feature monitors power consumption of up to sixty four 64 separate pieces of equipment connected to the power plant Power consumption data is generated and stored for any function channel properly configured for power monitoring Entering the command POWER generates and displays the power consumption report This report may also be generated in a comma separated value Page 37 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North Ame
75. ietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Restrictions Home Must be assemble by the customer Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order multiple List 92 as required Each List 92 provides 5 feet of cable When ordering multiple List 92 cable is provided uncut 2 Order cable termination kit per List 93 List 93 MCA Interface Cable Termination Kit Features Consists of one RJ 45 plug one 9 pin male D type plug four snap in crimp type contacts and one cable clamp assembly kit See also List 94 Restrictions Must be assembled by the customer Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order one 1 List 93 if cable ordered per List 92 2 Order cable per List 92 List 94 MCA Interface Cable Pre assembled Features Cable connects between the MCA of a Vortex Power System VPS or NETSURE Power System NPS and the 586505000 586505500 Main Cabinet 6 long pre assembled cable See also Lists 92 and 93 Restrictions Not for use in Spec Nos 582140000 5821400
76. il 7 2014 ACCESSORY DESCRIPTIONS Em In Line Fuse Kit P N 535135 Features Provides one 1 in line fuse 1A pigtail assembly with a butt splice on one end and the other end unterminated a butt splice 1 4 ring lug and 3 8 ring lug are provided loose to be crimped on the unterminated end as required Used to protect analog inputs as described under List 20 and List 23 description Ordering Notes 1 Order P N 535135 as required Replacement CPU Memory Backup Battery Features The CPU circuit card employs a 3 volt 170 mAH lithium battery which has a shelf life of ten years Under typical discharge conditions 25 degrees C the battery can power the memory for about 5000 hours When the lithium battery reaches approximately 2 5 volts a local indicator illuminates the Hardware Failure contacts on the Main CPU card change state and the firmware generates a Self Diagnostic Error When this happens it means the lithium battery under typical conditions will be able to power the memory for about another ten days Restrictions Emerson Network Power recommends that the memory backup battery be replaced once a year Ordering Notes 1 Order Part No 241163100 LMS1000 Network Cables Features Cables to connect the 586505000 586505500 Main Cabinet 586505000 586505500 Expansion Cabinets and 586505000 586505500 Expansion Assemblies into the LMS1000 Network Restrictions In Spec Nos 582140000 582140001 and 5821261
77. ilable in LMS1000 One simple cable connection between the LMS1000 and the MCA completes the interconnections required in a VPS NPS Power System except Spec Nos 582140000 582140001 and 582126100 The LMS1000 is factory integrated in a Spec No 582140000 582140001 and 582126100 NETSURE Power System and requires no customer interconnection The same tasks accomplished via the MCA local interface pad can be done via the LMS1000 This includes alarm monitoring system voltage current monitoring adjustment of system alarm circuits setting system configuration and setting system calibration In addition the LMS 1000 automatically maps dedicated analog and binary channels to the Power System This enables existing LMS1000 features e g alarm log alarm reporting analog statistics to be easily used with the Power System Also LMS1000 maintains a history of MCA Power System configuration and events The MCA Interface requires an RS 485 circuit card to be installed on the MCA in the Power System except Spec Nos 582140000 582140001 and 582126100 Spec Nos 582140000 582140001 and 582126100 MCA Interface is factory integrated and does not require additional hardware Note The MCA interface in a Spec No 582140000 582140001 or 582126100 Power system only supports one 1 MCA CAN Input Output circuit card per bay Each task supported by the MCA Interface is listed below for VPS and NPS Power Systems other than Spec Nos 582140
78. ing Set NPS Auto Equalize Time Multiplier Setting Page 35 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 e Set NPS Temperature Readings to Celsius Home e Set NPS Temperature Readings to Fahrenheit e Set NPS Temperature Compensation Slope Setting e Set NPS Temperature Compensation Maximum Voltage Setting e Set NPS Temperature Compensation Minimum Voltage Setting e Reset NPS Inventory to Reflect Current System Configuration e Set the following parameters for NPS MCA CAN I O circuit cards e Designate Analog Input as Auxiliary or Distribution e Set the Scale Factor for Analog Input and Output e Designate the Alarm State for Binary Inputs e Set Custom Text Messages Names e Enable or disable NPS System Alternate Current Limit operation e Set NPS System Alternate Current Limit Capacity setting e Set NPS System Sequencing Delay setting Available to LMS1000 Users with Access to Level 6 Commands via the DOWNLOAD NPS DOWNLOAD TFTP NPS UPLOAD NPS and UPLOAD TFTP NPS Commands resp
79. ion turns off all controlled rectifiers PCUs and then starts the rectifiers PCUs sequentially at 15 second Page 38 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 intervals until all controlled rectifiers PCUs are operating This prevents commercial Home 1 5 5 AC power surges which could cause an overload condition possible when several rectifiers PCUs are started simultaneously The standby sequencing option prevents similar surges when rectifiers PCUs are powered from a backup AC source such as an engine alternator after a failure occurs in the commercial AC source These surges could stall or overload the standby equipment LMS1000 senses when the commercial AC input fails and immediately turns off all controlled rectifiers PCUs It waits a programmed time interval and when it senses that the standby equipment is operating properly then sequences the rectifiers PCUs on at 15 second intervals until all controlled rectifiers PCUs are operating When AC input power resumes com
80. ions in this document for number of analog channels supported Shunt inputs should be protected by a 49 9 ohm resistor Note When LMS1000 is connected to an MCA the MCA Interface does not require connections to analog binary or relay circuit cards The MCA Interface provides analog inputs independently from the analog circuit cards installed Ordering Notes 1 Order one 1 List 22 analog circuit card for every eight 8 analog points to be monitored using LMS1000 2 Order current limit resistor kits as required per List BA BB and BC List 23 Twelve 12 Input Analog Circuit Card for Measuring Individual Battery Cell Voltages Features Monitors individual battery cell voltages e Each circuit card provides twelve 12 analog inputs to the system Refer to the Specifications section of this document for further information Page 11 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Restrictions Home Not for use in Expansion Cabinets and Expansion Assemblies
81. larity Attribute Provides means to specify the sign of the signal connected to an analog input This allows the value of the input signal to be processed correctly for display to the user and for calculation of statistics and alarm limit activation a Positive polarity default value The value of the input signal is displayed using the sign as provided by the hardware circuitry The processing of alarm limits and statistics is performed with the most positive value being a High signal and the most negative value being a Low signal b b Negative Polarity The value of the input signal is inverted multiplied by 1 before it is displayed or used for processing The processing of alarm limits and statistics is performed with the most negative value being a High signal and the most positive value being a Low signal For example given a float voltage of 54 0V 56 0V is a high limit e Alarm Limit Mode Provides means to specify how processing of alarm limits is performed a Normal mode default value Analog alarm limits are processed using the High and Low values as determined by the analog channel s polarity attribute discussed above b Bipolar mode Analog alarm limits are processed using zero as the Low value and the most positive or negative value as the High value An alarm Page 28 of 62 This document is property of Emerson Network Power Energy Systems N
82. larm Setting if installed Set VPS NPS Subsystem Overcurrent Alarm Setting if installed Set VPS NPS Relay Test Time Set VPS NPS Temperature Probe Alarms Set VPS NPS Auto Equalize Multiplier LMS1000 Users with Access to Level 6 Commands Set VPS NPS MCA Remote Access Password Set VPS NPS System Operating Mode Float or Test Equalize Set VPS NPS System Output Voltage Calibration Reading Set VPS NPS Subsystem Output Voltage Calibration Reading if installed Reset VPS NPS System Output Voltage Calibration Reading to Factory Default Reset VPS NPS Subsystem Output Voltage Calibration Reading to Factory Default if installed Set VPS NPS Analog Battery Charge Temperature Compensation Module s Calibration Voltage Page 33 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 e Set VPS NPS Number of 25A 50A 100A and 200A PCU Mounting Positions Home Available in the System also custom PCU sizes can be set e Reset VPS NPS Inventory to Reflect Current System Configuration e
83. local or remote LMS1000 port A user can then interface to the connected equipment directly using their terminal interface connected to the LMS1000 Additionally through the use of a device profile the LMS1000 can perform automatic logon to the device connected to the Gateway Port This is done with device profile and password parameters supplied in the CONNECT command request made by the user to the LMS1000 Restrictions e Only one LMS1000 Gateway port supported Only one Gateway port user at a time supported e Session Abort Control A Gateway session must be manually terminated using the Gateway session termination escape sequence The LMS1000 will not detect an abort of the Gateway session by the device connected to the Gateway port nor is it capable of terminating the session with the device connected to the Gateway port when the LMS1000 session is aborted abruptly e Loss of Carrier The LMS1000 will automatically terminate a Gateway Port session established via modem dial up or TELNET in the event of a loss of carrier or network connection e User Timeout A Gateway Port session is automatically terminated and the user is returned to the LMS1000 command prompt when the User Timeout Period is exceeded If a Gateway session was established using a Gateway Profile the LMS1000 will automatically log off of the Gateway device e Alarm Reporting When using a dial up session to communicate with the Gateway port dial out alarm notif
84. m Float Voltage Setting e View NPS System Test Equalize Voltage Setting e View NPS System High Voltage Shutdown Setting e View NPS System Current Limit Setting e View NPS System High Voltage Alarm 1 Setting e View NPS System High Voltage Alarm 2 Setting e View NPS System Battery On Discharge Alarm Setting e View NPS System Voltage is Very Low Alarm Setting e View NPS System Total Load Current Alarm Setting e View NPS System Group A Load Current Alarm Setting e View NPS System Group B Load Current Alarm Setting Page 34 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 View NPS System High Temperature Alarm 1 Setting Home View NPS System High Temperature Alarm 2 Setting View NPS System Low Temperature Alarm 1 Setting View NPS System Low Temperature Alarm 2 Setting View NPS NAG Minutes Audible Alarm Cutoff Reset Time Period Setting View NPS Manual Test Equalize Time Setting View NPS Relay Test Time Setting View NPS Auto Equalize Time Multiplier Setting View NPS
85. mercial AC sequencing as described above occurs Once all controlled rectifiers PCUs are restarted energy management if supplied will resume Rectifier PCU sequencing has priority over energy management Both types of sequencing use binary input changes to initiate the sequencer The sequencer can also be configured with a Sequencer Failsafe Timer feature This feature aborts sequencer operation when an external monitoring device controlling sequencer operation fails The timer starts when LMS1000 detects an AC failure If the timer expires before a signal is received indicating that the commercial AC is restored or load was transferred to the standby power source the following occur The sequencer is disabled an entry is made in the event log the sequencer variables are reset and all rectifiers PCUs are turned on If a signal is received before the timer expires the timer is deactivated and reset When the sequencer is disabled the Set Sequence command must be re issued to re activate the sequencer Note Setting the Sequencer Failsafe Timer to zero 0 disables this feature The sequencer can also be configured with an AC Restoration Qualification Timer feature This feature is only available when the INPUT TYPE attribute of the sequencer is configured as a FAIL type and not as a TRANSFER type This feature allows the sequencer to turn all rectifiers PCUs off and start the sequence re start operation at a specific time interval from when
86. ng Wire Harness cccceeceeeeeeeee cece ee eeeeeeenenceeeeesea eee nne sense sa nnt nn na nn ns sn she tn manns nnns snnt nennen 24 SPECIFICATIONS AE rc 25 1 586505000 586505500 LMS1000 System eese nennen nnne nnne nn nennt 25 1 1 Environmerital Ratings iie oi er b e ase eer me e sed ae ri STRE 25 1 2 Firmware Specifications 1 et bake tenen e die rete ee Lo a ne ea Te e eee bee dun eats 25 1 3 Node Specifications iiri boe eto e dedi re Ede et de en bove addo aee vel ee aee atone 25 1 4 Software Features enit et leue epitope dedo et e a e d Dee debet os boe dtu vl ee deed dials 26 1 5 Available Software Options iiiaio cee ee cece ee aeee cece eee e a a aae A a a aada adea 37 1 6 Specialty interfaces tette e Lt e etae vice cece de ac aaa la cach Weide ife t ee adve 41 2 586505000 586505500 LMS1000 Main Cabinet eeseeeeeeseeee eene nnne nnn nnns 42 2 1 Input Ratings uui iet gd en ed edet ed de ee c ee ecu e d e eaa e e eai EP ede 42 2 2 Mo nting iu e tete ed e oe ee dut epu heute eade t eat ed e lees devi avt aea 42 2 3 VO Circuit Card Mounting Positions ssssesseeeneenenenennneenen nennen nnne nennen nnne enn 42 2 4 CPU Circuit Card Part No 545476 used in 586505000 586505500 and 545558 used in 582140000 582140001 and 582126100 sse eene nennen enne enne nre nnns 42 2 5 LMS1000 Front Panel Display Option
87. nnected to any input or the value of a mathematical expression between various inputs increases or decreases past a predetermined level or when any relay or status LED indicator associated with the system energizes or illuminates When an alarm condition occurs on an input analog binary or function channel the system can be programmed to notify the user through local visual indicators extended alarm relay contacts remote terminal pager Email and or TL1 network when TL1 option is ordered Remote terminal pager Email and or TL1 network when TL1 option is ordered notification of an alarm condition is also available if an alarm condition occurs on an output relay or LED channel All system alarms are reported via the SNMP interface There are two types of alarm reporting mechanisms available for remote terminal pager or Email notification SYSTEM ALARM REPORTING and INDIVIDUAL USER ALARM REPORTING System Alarm Reporting has priority over Individual User Alarm Reporting The system has an automatic log off feature This feature will automatically log off a user who is communicating remotely with the system via modem if the system needs to issue an alarm report to that or another remote terminal via the modem In addition to System Alarm Reporting and Individual User Alarm Reporting TL1 Report Messages are issued via the LMS1000 TL1 port when the TL1 software option is installed 4 5 6 Page 29 of 62
88. nt is used all rectifiers PCUs in the system should be controlled Energy Management Channels A maximum of 80 energy management channels can be programmed thus LMS1000 can support any combination of up to 80 energy managed rectifiers and PCUs An energy management channel combines two input channels with a single output channel rectifier only per rectifier PCU to accomplish the task of controlling the rectifiers PCUs for energy management and sequential start purposes Note The number of rectifiers that can be controlled is limited to 32 due to the availability of 32 relay channels dedicated for energy management sequential start PCUs do not require hard wired relay channels for energy management hence 80 PCUs may be controlled Any combination of rectifiers and PCUs may be controlled up to 80 total as long as rectifiers don t exceed 32 Note Operation of Energy Management is disabled when the Dual MCA Interface option is installed 1 5 4 Sequential Start Software Option if installed LMS1000 can support up to 80 sequential start controlled rectifiers PCUs see note above There are two types of optional sequencing available with the sequential start option commercial AC sequencing and standby sequencing Commercial AC sequencing permits sequential starting of rectifiers PCUs assigned to energy management channels when commercial AC input fails and subsequently is restored When AC power is lost and then resumes the AC sequencing opt
89. o Y P JUNE LEFT a 9 060 RIGHT SIDE SIDE VIEW FRONT VIEW VIEW 0 218 x 0 375 0 218 Dia 0 218D Slot 5 Places Hole 1 Place Slot 8 Places NOTES 1 All Dimensions are in Inches Unless Otherwise Specified 2 Finish Off White 3 Weight in Lbs Net Shipping 3 Page 55 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Connector Locations 586505000 586505500 Main Cabinet C2 O O D i9 o 5 o EAS Poco TT aL o 0 a SO OR EOD OS EO E EE O C O AET EO a E 1 SE SS A A FN A A O GE ED RS GE l OSD GRE HES X l l l l ane BD GS MS GO O Ge a T l Front View Main Cabinet RS 232 CIS eMe Down Located on CPU Circuit Card 5 1 Accessible through Front Door 9 Pin Female D Type Connector 9 o 9 6 For Local Terminal Connection Communications Ports 9 Pin Female D Type Jacks List 85 AC Analyzer Port or List 86 Alwa
90. ocument is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Restrictions Home Not for use in Expansion Assemblies Maximum number of binary points that can be monitored is dependent on how many open l O slots are available in the system network and maximum number of binary channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specifications in this document for number of binary channels supported Note When LMS1000 is connected to an MCA the MCA Interface does not require connections to analog binary or relay circuit cards The MCA Interface provides binary inputs independently from the binary circuit cards installed Ordering Notes 1 Order one 1 List 31 binary circuit card for every eight 8 binary points to be monitored using LMS1000 2 For recommended protection on input wiring order current limit resistor kits as required per List BA BB and BC List 40 Four 4 Output Form C Relay Circuit Card
91. orth America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 high or low can only occur if the sign of the alarm limit matches the Home 1 4 6 1 4 7 sign of the reading value For example this may be used in detecting both high charge current and a high discharge current on a battery shunt Assume a shunt is wired for a negative float current reading and it has a high alarm limit of 6 0 amps to detect a high float current It can then also have a high limit of 100 0 amps to detect a high discharge current So in this example there are two high alarms with opposite polarity 2 Binary Channels Typical binary inputs include alarm and status indications and any input with an on and off state Each of the binary channels can be programmed to report an alarm condition or record this condition for statistical purposes 3 Energy Management Channels See description of Energy Management channels under Software Options found later in this document Function Channels Two or more constants analog channels and or function channels can be programmed into
92. ostic alarms on binary channels B0081 through B0099 Example A0001 A represents an analog input channel 00 represents the 586505000 586505500 Main Cabinet Node or 582140000 582140001 582126100 Primary Bay LMS1000 I O Grouping Node cannot be changed 01 represents input channel 01 Example A3001 A represents an analog input channel 30 represents the 586505000 586505500 Expansion Cabinet Node or 582140000 582140001 582126100 Secondary Bay LMS1000 I O Grouping Node set as Node 30 set when network initially established 01 represents input channel 01 Example A4001 A represents an analog input channel 40 represents the 586505000 586505500 Expansion Assembly Node set as Node 40 set when network initially established 01 represents input channel 01 Page 27 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Example A9001 Home A represents an analog input channel 90 represents the VPS NPS MCA Node cannot be changed 01 represents input channel 01 Example A9901
93. ovide statistics e LMS1000 is capable of reporting alarm conditions to a remote terminal pager or Email address For remote terminal or pager notification the Main CPU circuit card must be equipped with the optional modem Two types of alarm reporting mechanisms are provided System Alarm Reporting and Individual User Alarm Reporting Expansion Assembly Main Cabinet Expansion Cabinet Similar Page 1 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 e LMS1000 is capable of reporting alarm conditions via SNMP traps over Ethernet Home or via TL1 over Ethernet when the TL1 over Ethernet option is ordered TL1 is also available via a serial connection in direct mode e The Main CPU circuit card provides programmable LEDs to allow local indication of alarm conditions or occurrences For remote indication the Main and or Expansion Cabinets can be equipped with output circuit cards which provide programmable relays These relays may also be used to control other equipm
94. ower Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 o T O Main Cabinet Front Door Expansion Cabinets Similar Opened in 19 Cabinet Shown Illustration Available Input Output I O Listes SS and ake Curent Limit Resistor Kits List BE BF Circuit Cards List 20 Four 4 Input Analo MESO n 9 and P N 535135 In Line Fuse Kits List 21 Eight 8 Input Temperature Circuit List ST and SU Temperature Card Sensors List 22 Eight 8 Input Analog Circuit Card List 23 Twelve 12 Input Analog Circuit Card for Measuring Individual Battery Cell Voltages List 30 Four 4 Input Binary Circuit Card List 31 Eight 8 Input Binary Circuit Card List 40 Four 4 Output Form C Relay Circuit Card System Overview Table of Contents List Descriptions Accessory Descriptions Dimensional Drawings Related Documentation SEE ALSO Page 5 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power
95. permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 List 87 Power Metering Software Option Home Features Refer to the Specifications section of this document for further information Restrictions This option must be factory installed or field installed by Emerson Network Power only This option can be field installed remotely via dial up phone lines if your LMS1000 is equipped with a modem or via Ethernet if connected to a TCP IP network Ordering Notes 1 Order List 87 if Power Metering is required 2 Order aList 20 analog circuit card This analog circuit card provides 4 analog inputs One will be connected to system voltage This leaves three for measuring customer loads Order one additional analog circuit card per four additional customer loads to be monitored Note that there is also an 8 input analog circuit card List 22 available which monitors up to eight 50 mv shunts 3 Also order one 1 in line fuse kit to protect the analog leads connected to system voltage Specify List BE 3 8 ring lug List BF 5 16 ring lug or P N 535135 1 4 ring lug 3 8 ring lug or butt splice 4 And order a current limit resistor kit for each customer load to be monitored for power consumption Specify List BA 3 8 ring lug List BB splice
96. rica Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 format which can easily be imported into a spreadsheet for record keeping or Home presentation purposes The user is responsible for translating power consumption data into dollars billed To use this feature an analog channel must monitor system voltage and other analog channels must monitor load current for each equipment to be monitored for power consumption A function channel must be configured for each equipment to be monitored for power consumption by entering the phrase KW for the Unit Text and entering the appropriate program line to multiply the value of the analog channel monitoring system voltage with the value of the analog channel monitoring load current then divide this product by 1000 i e F012 A0001 A0002 1000 Instead of dividing by 1000 you could multiply by 0 001 i e F012A0001 A0002 0 001 To get a report enter the command POWER Any time the POWER command is entered LMS1000 generates a power consumption report for the function channels and displays the resulting information For the comma separated value format enter the command POWER CSV The POWER command is available to a user programmed for access
97. ry etc can be assigned to a particular Alarm Class This Alarm Class then appears as part of the SCAN ALARMS and LOG reports to help identify the type of alarm Relay control programs can be as simple as R0001 K2 which means relay channel one will energize when there is an alarm for any channel whose Alarm Class is two Introduction to Channels A Channel Identification I O Numbering Scheme The LMS1000 provides analog and binary input monitoring points and extended relay contact output points In addition local front panel programmable LEDs are provided Each input and output point is directly associated with a channel Thus there are LMS1000 analog binary relay and LED channels In the LMS100 you can combine two or more analog inputs into one function channel and advance software options provide energy management channels This adds function channels and energy management channels to the list of channel types in the LMS1000 In the LMS1000 system the 586505000 586505500 Main Cabinet or 582140000 582140001 582126100 Primary Bay the 586505000 586505500 Expansion Cabinets or 582140000 582140001 582126100 Secondary Bays the 586505000 586505500 Expansion Assemblies and the MCA Interface are referred to as nodes A node is a grouping of I O s in a common assembly cabinet or bay LMS1000 channels are identified through a type designation A analog B binary R relay L LED F function and E energy management a Nod
98. s as described under List 30 and 31 description Home Ordering Notes 1 Order as required List BC Current Limit Resistor Kit Features Provides one 1 49 9 Ohm resistor pigtail assembly with 5 16 ring lug Used to protect analog inputs as described under List 20 and List 22 description Can also be used to protect binary inputs as described under List 30 and 31 description Ordering Notes 1 Order as required List BE In Line Fuse Kit Features Provides one 1 in line fuse 1A pigtail assembly with a 3 8 ring lug Used to protect analog inputs as described under List 20 and List 23 description Ordering Notes 1 Order as required List BF In Line Fuse Kit Features Provides one 1 in line fuse 1A pigtail assembly with a 5 16 ring lug Used to protect analog inputs as described under the List 20 and List 23 descriptions Ordering Notes 1 Order as required List ST Temperature Sensor Features Provides one 1 temperature probe to be used with the List 21 temperature input circuit card Mounts to a 5 16 or M8 stud Restrictions LMS1000 Temperature Probe Wire Specifications e Preferred wire is P N 1562077 18 Ga solid twisted pair maximum length is 200 feet e Optional wire is P N 1562001 20 Ga shielded twisted pair shield grounded at one end maximum length is 100 feet Ordering Notes 1 Order List ST as required List SU Temperature Sensor Features Provides one 1 temperat
99. s document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Common mode voltage between inputs must not exceed 0 15 to 0 95 volts Home 4 4 6 Binary Inputs Provides eight 8 binary inputs A Single ended input connections return is BAT B Input State An applied voltage of 12 to 60 volts DC is defined as the CC contact closed state An applied voltage of 2 0 volts or less is defined as the CO contact open state Voltages between 2 0 and 12 volts are undefined 4 4 7 LMS1000 Network Port One RJ 45 jack is provided for interconnecting into the LMS1000 network 5 INPUT OUTPUT I O CIRCUIT CARDS 5 1 Four 4 Input Analog Circuit Card Part No 506336 5 1 1 General Adds four 4 analog inputs to the system 5 1 2 Inputs Monitors 0 50 mv DC shunts 0 100 mv DC shunts 0 20 ma current loop signals and voltages from 0 to 60 volts DC Each input is jumper selectable for either shunt current loop or voltage Two sets of terminals provided for each input One set for connection of 0
100. ss Controller and VPS NPS to be connected to the LMS1000 OEM3 Port Recommended to use a Desarrollos Digitales Isolation Board Model DTP 1 485 96 DC24 T E between the DAC and LMS1000 Not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 80 as required List 82 PCU Rectifier Sequencing Software Option Features Provides PCU Rectifier Sequential Start Refer to the Specifications section of this document for further information Restrictions Besides the sequencing software option LMS1000 requires dedicated binary VPS NPS and traditional rectifiers and relay traditional rectifiers only inputs outputs to manage the power plant See the Wiring section of the Installation Instructions Section 5879 The LMS1000 Sequencing feature is not for use in 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 82 if PCU Rectifier Sequencing is required 2 Order a binary circuit card if spare inputs are not available for a Commercial AC Fail Transfer Detection input and a Standby On Proper Operate Detection input Binary channel 9011 All AC Off may be used as the Commercial AC Fail Transfer Detection input in a VPS NPS Power System 3 Order analog binary and relay circuit cards as required when used with traditional rectifiers List 83 Energy Management Software Option Features Provides PCU Rectifier Energy Management Refer to
101. ssembly a D Sub Connector Housing Male Emerson Network Power P N 116694 Tyco P N 1658641 2 b Crimp Type Pins Male Emerson Network Power P N 245381800 Tyco P N 66506 3 supplied on a strip or P N 66506 9 supplied loose c Cable Clamp Housing Emerson Network Power P N 116731 Tyco P N 748677 5 d Jack Screw Male Kit Emerson Network Power P N 116737 Tyco P N 747784 8 e Hand Crimping Tool Pro Crimper Il Tyco P N 58448 2 List 20 Four 4 Input Analog Circuit Card Features Monitors voltages shunts and current loops Each circuit card provides four 4 analog inputs to the system Refer to the Specifications section of this document for further information Restrictions Not for use in Expansion Assemblies Maximum number of analog points that can be monitored is dependent on how many open I O slots are available in the system network and maximum number of analog channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specifications in this document for number of analog channels supported Shunts should be protected by a 49 9 ohm resistor All other analog inputs should be protected by a fuse in each lead Note When LMS1000 is connected to an MCA the MCA Interface does not require connections to analog binary or relay circuit cards The MCA Interface provides analog inputs independently from the
102. ssociated setting of the VPS e The LMS s command line interface using the Set NPS commands The LMS requests the NPS to change the setting and upon verification the associated VPS setting is updated The following VPS readings and statuses are communicated to the NPS controller via the LMS NPS LISP communications link e The VPS Total PCU Current reading LMS function channel sixty four program line must be F64 A9005 The value is summed into NPS Total PCU Current parameter reading associated LMS channel A9902 e The VPS Total System Current reading LMS function channel sixty three program line must be F63 A9002 The value is summed into NPS Total Load Current parameter reading associated LMS channel A9903 e The number of failed VPS PCUs The NPS uses this to determine the System PCU Major and System PCU Minor alarms e The VPS Fuse Alarm status LMS LED channel seven program line must be L7 B9010 The status must be configured in the NPS controller function definition to create an alarm indication e The VPS AC Fail Alarm status LMS LED channel eight program line must be L8 B9011 The status must be configured in the NPS controller function definition to create an alarm indication e The VPS System Major and System Minor the associated LMS channels B9015 and B9016 must have the Alarm Class parameter configured for LMS Alarm Class MAJOR and MINOR
103. successful when a the system connects with a modem or an Email notification is sent to a valid Email address or b the user issues an ACKnowledgement after receiving the alarm notification One of the above options is selected during initial system programming If alarm reporting is not successful the system continues calling or Emailing the next specified user If each user is called or Emailed and an alarm report is not successfully issued the system waits the specified retry time interval and then repeats the process 1 4 9 Individual User Alarm Reports This method provides each user with the capability of receiving four different reports with the first three listed pertaining only to channels that the user has selected These reports can be delivered by the system to the user through a pager via modem remote terminal via modem or Email via Ethernet These reports are A Occurred Alarm Reports a report of any new alarms that have occurred on the user s channels B Retired Alarm Reports a report of any alarms that have cleared on the user s channels C Persistent Alarm Reports a periodic report of any alarms that still exist on the user s channels D Daily Report The user specifies a standard system command or one of the programmable commands which is issued as this report The daily report is given at a specific time each day 1 4 10 Alarm Cut Off ACO The alarm cut off feature enables silencing an extern
104. ta parameters from the Vortex system are passed to the NPS controller MCA System settings are controlled by the NPS MCA and can be changed either directly at its front panel interface or indirectly with the LMS s SET NPS commands Status of the Vortex Power System parameters are still accessible using the Vortex System front panel display or associated LMS commands Changes in settings not associated to system control can be modified through the LMS s SET VORTEX commands VPS parameter readings and status are assigned to LMS nodes ninety and ninety one Refer to Accessing a Vortex Power System in the OPERATION Chapter of the LMS User s Manual Section 5847 for a list of the specific parameter channel assignments Page 40 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 System settings can be changed using one of two methods Home e The front panel interface of the NPS main bay The LMS detects that the setting has been changed on the NPS s front panel and also changes the a
105. tains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 3 586505000 586505500 LMS1000 EXPANSION CABINET Home 3 1 Input Ratings 3 1 1 Input Voltage Range 20 60 Volts DC 3 1 2 Maximum Input Current 0 7 Amperes 3 2 Mounting 3 2 1 586505000 List 6 Furnished reversible mounting angles permit mounting in a 19 or 23 wide relay rack with 1 or 1 3 4 multiple drilling 586505000 and 586505500 List 7 Furnished mounting angles permit mounting in a 23 wide relay rack with 1 or 1 3 4 multiple drilling 3 2 2 Mounting angles may be re positioned for flush front mounting 5 inch front projection mounting or 6 inch front projection mounting 3 3 I O Circuit Card Mounting Positions 3 3 1 Provides for mounting of any combination of I O analog binary relay and temperature circuit cards CARDS MUST BE LOADED LEFT TO RIGHT AS VIEWED FROM THE FRONT OF THE CABINET DO NOT SKIP SLOTS 3 3 2 Contains ten 10 I O circuit card mounting slots 3 4 CPU Circuit Card Part No 506153 also used in 582140000 582140001 and 582126100 Secondary Bays 3 4 1 General The CPU circuit card contains th
106. ted by adding up the length of every network cable used to interconnect the Main Cabinet Expansion Cabinets and Expansion Assemblies Refer to the Installation Instructions Section 5879 for cable assembly instructions Page 25 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 SAG586505500 System Application Guide Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 1 4 Software Features Home 1 4 1 1 4 2 1 4 3 1 4 4 1 4 5 User Interface Users can interface with LMS1000 through the local port using a local terminal through a modem if optional modem installed through the Ethernet port via a TELNET session through the Ethernet port using a MIB browser or through the Ethernet port over the Internet via a WEB Browser The local port default parameters are 8 data bits 1 stop bit and no parity These defaults cannot be changed The data rate of the local port is software selectable from 110 to 19200 bits s The data rate is factory set to 19200 bits s The modem port default parameters are 8 data bits 1 stop bit and no parity These defaults c
107. tem alarms that still exist The Persistent Alarm Period specifies how frequently the system will attempt a Persistent Alarm Report B SNMP Parameters 1 The Get community string can be set and listed Page 36 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 2 The Set community string can be set and listed Home 3 The Traps community string can be set and listed 4 Trap Addresses can be added deleted and listed SNMP V1 or V2 traps can be received The SNMP version of the traps sent are selected through software V1 or V2 5 Host Addresses can be added deleted and listed 6 Trap Addresses can be enabled and disabled 1 5 Available Software Options 1 5 1 1 5 2 Gateway Port Software Option if installed The Gateway Software Option allows the LMS1000 to provide an RS 232 terminal interface connection accessible via a user port When installed equipment connected to the LMS1000 Gateway port can be accessed by a user through either a
108. tem network and maximum number of binary channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specifications in this document for number of binary channels supported Note When LMS1000 is connected to an MCA the MCA Interface does not require connections to analog binary or relay circuit cards The MCA Interface provides binary inputs independently from the binary circuit cards installed Ordering Notes 1 Order one 1 List 30 binary circuit card for every four 4 binary points to be monitored using LMS1000 2 For recommended protection on input wiring order current limit resistor kits as required per List BA BB and BC List 31 Eight 8 Input Binary Circuit Card Features Monitors 0 60 volts AC DC single ended inputs Each circuit card provides eight 8 binary inputs to the system Each input requires only one connection source plus a single BAT and or BAT connection for all inputs as required The other connection point for each binary input is made via the placement of the appropriate jumper on the circuit card This jumper either applies BAT or BAT to this connection point This simplifies wiring to the binary inputs since BAT and or BAT as required only has to be connected to the circuit card at one point Refer to the Specifications section of this document for further information Page 12 of 62 This d
109. the Specifications section of this document for further information Page 17 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Restrictions Home Besides the energy management software option LMS1000 requires dedicated analog binary and relay traditional rectifiers only inputs outputs to manage the power plant See the Wiring section of the Installation Instructions Section 5879 The LMS1000 Energy Management feature is not for use in Spec Nos 582140000 582140001 and 582126100 Power Systems Ordering Notes 1 Order List 83 if PCU Rectifier Energy Management is required 2 Order analog binary and relay circuit cards as required when used with traditional rectifiers List 84 External GPS Modem Interface Features Provides access to the LMS1000 via an external GPS Modem Refer to the Specifications section of this document for further information Restrictions Interfaces to an Enfora GPS External Modem only External Modem Port is provided via the LMS1000
110. tifier AID is used to identify each entity contained within the system LMS1000 must be configured to allow a single access identifier to be used to access and report on an NMA system entity which may consist of a multiple of sub entities each monitored by a variety of LMS1000 channels This is accomplished by configuring LMS1000 access identifiers and LMS1000 sub access identifiers as described next A list of suggested access identifiers and sub access identifiers appears in TA NWT 001360 Table 4 1 LMS1000 can be set to use an AID delimiter When enabled the LMS1000 access identifier Page 39 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 field and the LMS1000 sub access identifier field in all responses to TL1 commands Home and reports containing a TL1 access identifier field is separated by a hyphen The use of an AID delimiter a hyphen can be enabled or disabled as described in Setting the TL1 X 25 Port Parameters of the System Configuration Chapter in the Installa
111. tion Instructions Section 5879 LMS1000 Access Identifier Thirty two 32 LMS1000 access identifiers are available The LMS1000 access identifier is used to uniquely identify a system entity such as a power plant LMS1000 Sub Access Identifier The LMS1000 sub access identifiers are used to uniquely identify each sub entity of an entity such as each rectifier each battery string etc contained in a power plant The association between all LMS1000 channels monitoring an individual rectifier an individual battery string etc is made by configuring each channel monitoring this individual sub entity with a unique sub access identifier name This is done when the individual LMS1000 channels are configured Thus all LMS1000 channels monitoring rectifier one may be configured with the sub access identifier name RECT1 All LMS1000 channels monitoring rectifier two may be configured with sub access identifier RECT2 All LMS1000 channels monitoring battery string one may be configured with the sub access identifier BATSTR1 All LMS1000 channels monitoring battery string two may be configured with sub access identifier name BATSTR2 Etc Now to associate the sub entities each rectifier each battery string etc to the entity the power plant you configure the access identifier to include all LMS1000 channels monitoring this entity and any sub entity contained within This is done through the use of the LMS1000 command SET AID TL1 Report
112. ure probe to be used with the List 21 temperature input circuit card Mounts to a 1 4 or M6 stud Page 21 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited SAG586505000 System Application Guide SAG586505500 Spec No 586505000 Model LMS1000 Issue AZ April 7 2014 Spec No 586505500 Model LMS1000 Restrictions Home LMS1000 Temperature Probe Wire Specifications e Preferred wire is P N 1562077 18 Ga solid twisted pair maximum length is 200 feet e Optional wire is P N 1562001 20 Ga shielded twisted pair shield grounded at one end maximum length is 100 feet Ordering Notes 1 Order List SU as required Page 22 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ Apr
113. w many open I O slots are available in the system network and maximum number of analog channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specifications in this document for number of analog channels supported Ordering Notes 1 Order one 1 List 21 temperature circuit card for every eight 8 temperature probes to be monitored using LMS1000 2 Order temperature probes as required per List ST and SU List 22 Eight 8 Input Analog Circuit Card Features e Monitors 50 mv shunt inputs Each circuit card provides eight 8 analog inputs to the system Refer to the Specifications section of this document for further information Restrictions Not for use in Expansion Assemblies This circuit card can only be used for 50mV shunts on the same discharge bus None of the 8 inputs on any given card may exceed 0 15 to 0 95 V between inputs The card to card voltage differential does not matter These cards may not be used for RIM applications For RIM applications use the universal analog circuit card 586505000 and 586505500 List 20 Maximum number of analog points that can be monitored is dependent on how many open O slots are available in the system network and maximum number of analog channels the system supports Each 586505000 586505500 cabinet holds up to ten 10 I O circuit cards Refer to Firmware Specifications under Specificat
114. ys Vortex TL1 X 25 Port VPS Port or List 60 61 List 88 and LMS Front Panel Display Port Local Port Redirection List 80 or or Door Access Controller Port List 84 List 79 use Y cable to also connect External GPS Modem Port Gateway Port VPS to same port RS 232 422 RS 232 RS 485 Vortex OEM 2 Port OEM 1 Port OEM 3 Port RJ 45 System Network Ports Expansion Shelf Grounding Stud 10 32 En Oi Oo EUIS ij Ga lt a gt Tp o ana az WEES Oo O O N ho ET MODEM Rear View RJ 45 Main Cabinet ETHERNET RJ 11 19 Cabinet Shown Access Opening and Cable Channel Port Phone Line for Connections to I O Circuit Cards active only if and External CPU Hardware Fail Alarms modem installed Page 56 of 62 This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited System Application Guide Spec No 586505000 Model LMS1000 Spec No 586505500 Model LMS1000 SAG58650500
115. ystem q io ojoc01 Ww ry gt Table 3 OEM2 Port 9 Pin Female D Type Jack Pin Assignments Software Selected for RS 232 Connection Configured as DTE Port Pin Number Application Input Output Received Data RxD Input to System Received Data RxD Transmitted Data TxD Input to System Output from System Transmitted Data TxD Output from System Signal Ground Gnd Handshake Out HSO Output from System Handshake Out HSO Output from System OlLOIN OD O BR Ww rm Handshake In HSI Handshake In HSI Input to System Input to System Table 4 OEM2 Port 9 Pin Female D Type Jack Pin Assignments Software Selected for RS 422 Connection Configured as DTE This document is property of Emerson Network Power Energy Systems North America Inc and contains confidential and proprietary information owned by Emerson Network Power Energy Systems North America Inc Any copying use or disclosure of it without the written permission of Emerson Network Power Energy Systems North America Inc is strictly prohibited Page 44 of 62 System Application Guide SAG586505000 Spec No 586505000 Model LMS1000 SAG586505500 Spec No 586505500 Model LMS1000 Issue AZ April 7 2014 Home Port Pin Number Application Input Output 1 i e 2 Transmitted Data TxD Output from System 3 Received Dat
Download Pdf Manuals
Related Search