NetSure 701 A51 – User Manual
Contents
1. i p cooooooooogg DODO OOOO Si anal ofo o o gt 8 a one T e HEBE TO Eos Il petete 445 HoE Ym a 0046044804 Y 466 483 _ Figure 2 3 Installation size of NetSure 701 A51 PS48300 3A 3200 unit mm i bY Le rees ST naa E l 311 A poo a 3 3 le O E ie 1 1 r i e a e a i a 465 5 pa 483 0 Figure 2 4 Installation size of NetSure 701 A51 PS48300 3A 3200 X2 unit mm 2 4 Electrical Installation 2 4 1 Connecting Power Cables Connecting AC input cables DM Danger 1 Switch off all MCBs before the electrical connection NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 2 Installation Instruction 7 2 Only the qualified personnel can do the mains cable connection Feed all the cables into the subrack from top of the subrack Take the NetSure 701 A51 power supply sy2. Positive terminals Positive terminals Battery MCB gt w Monitoring module 1 Dum my plate Battery MCB sp Monitoring module r Dum my plate Chapter 1 Overview ad oo o Marron a Load MCB Load MCB AC input MCB e Lid ily ait ea A a SM El Y v ARH NO Ai Yer ee Y E Oi i e Rectifier pel pa pl iji m e Sia rd a tat A ES Figure 1 4 NetSure 501 AAO system structure settee Mo o o peee Load MCB PEI Load MCB o D AC input MCB F H l p jl SCS Le cote alte ca AA 18 ao RIVE Mein Rectifier iig Mi URL eT Th D T T T T T T Figure 1 5 NetSure 701 A51 PS48300 3A 3200 system structure Positive terminals Load MCB AC input MCB al E gt Rectifier Ki Figure 1 6 NetSure 701 A51 PS48300 3A 3200 X2 system structure System configuration The configurations of the power supply system are
3. Figure 1 3 NetSure 501 A50 system structure NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 2
4. Positive terminals Positive terminals Battery MCB Monitoring module Dummy plate
5. Note The wiring in the dashed square means the load alarm routes can be expanded to 10 Figure 3 NetSure 701 A51 PS48300 3A 3200 X2 wiring diagram To user PE i WR a a BR OO di m wal Load alarm signal connection AC INPUT for LAWPE 230V AC i nput of the monitoring backboard J Rear view Wel PE Bar L N A o o 93 3 f E Ft a Jf IN Ae y Wis W J to Rect 3 RB y B i A PL Y to Rect 2 al to Rect 1 wat a To 3 48V busbar NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 3 Wiring Diagram 116 Appendix 3 Schematic Diagram Distribution Unit Scheme 11 for 3P N PE 380V SPD AC input Scheme 21 for 3P N PE 380V AC input Scheme 3 l for 3P PE 220V SPD AC input i z 7 T R ie i A i i 7 dupe l SE AA EERE P Rea eee a pecs 4 i i PE Li LN pp
6. Note 1 The AC distribution has 3 schemes determined by user requirement Figure 9 Schematic diagram of NetSure 501 AAO 2 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 122 Appendix 4 Glossary Appendix 4 Glossary Abbreviation Full word Amb Temp Ambient Temperature Batt Battery BC Boost Charging BLVD Battery Lower Voltage Disconnection Cap Capacity CommMode Communication Mode CurrLimit Current Limit CycBC Cyclic Boost Charging Con Alarm Voice Control Alarm Voice Hist Alarm Historical alarm HVSD High Voltage Shutdown InitParam Initialize Parameters InitPWD Initialize Password LLVD Load Low Voltage Disconnection LVD Low Voltage Disconnection MCB Miniature Circuit Breaker Ph A Phase A PWD Password Rect Rectifier Shunt coeff Shunt Coefficient SM Supervision module monitoring module SPD Surge Protection Device SW Version Software Version Sys System Temp Temperature Temp Comp Temperature Compensation Volt Voltage NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual
7. ammm y 0110 eE AT PSR REP o 20 ajo Be abe ME UU UU RoB al Bo o o e SISISISISISISIgP oC 0 6 0 o ofa 6 oe Go OFF G em m alo E sl LE jo dE a eeeetcseeoscese Sd 490 188 e 8 8 8 8 8 81818 TA e Wii Y h nilh Ln el Hd e y i ali mall i Y B 466 8 483 Figure 2 2 Installation size of NetSure 501 AAO unit mm
8. AC scheme 2 fal to Rect to Rect 3 to Rect 5 to Rect 2 to Rect 4 to Rect 1 o Rect 5 E to Rect gt I NPL lo Rett 2 TT 4 z E lo Rect 1 we va To 3481 busbar Technical requirement Configuration explanation 1 AC input three schemes optional The 3P N PE 380V is one option See AC input distribution schemes for other options 2 Rectifiers 2 5 pieces optional 1 Before wiring attach specified labels to the corresponding positions according to the design document keep the tube and bind the cables as required 3 The number of the battery MCBs is determinded by requirements 2 4 routes optional 4 BLVD and LLVD the DC output routes and battery routes are protected by MCBs The contactors are normally closed type The LLVD contactor KM2 is optional 5 DC distribution DU is optional The sum dimension of the load MCBs should be smaller than 410mm The MFU can be configured with load MCBs The sum dimension of the load MCBs should be smaller than 190mm 6 If the monitoring module is M501D refer to th
9. PE Bar L N OV e B or ds Board CN W24C3X1 1QF1 110F2 1QF3 110F4 1QF5 4 l 4 i Monitor Back Board PL PD1 Bat 2 0D i S6415X1 l Bat 1 QDA K RB Monitor C a TILE lt A oe 7 A ee are Shunt KM1 M500D Rectifiers Unit CAN 230VAC 230VAC Figure 7 Schematic diagram of NetSure 701 A51 PS48300 3A 3200 X2 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 3 Wiring Diagram 120 Distribution Unit A A A A A A A A Signal Board Signal Board T T T T T T T T T T y d y d bg ek 5 de B242HFX1 B242HFX1 3QF1 BQF2 3QF3 3QFx 4QF1 4QF2 4QF3 4QFx 5QF1 5QF2 5QF3 5QFx PE NPL NPL Multifunction Unit Monitor PE Bar Li 2 La ay A ge A A inian i M501D or M800D N A A A Connector Board T Gig p I i f poz A 1QF1 1QFx 2QF1 2QFx W24C3X1 to PD2 NPL Monitor Back Board SPD F J Bat 3 PD1 Qu h Ley S6415X1 to OV Bat 2 QD2 ih 3 A Bat 1 odi RB 7 ihl me an y Shunt KM KM2 Rectifier Unit 48V
10. Alarm level Relative device Signal name i T Sample time RectifierGroup Rectifier lost 2007 08 27 09 18 16 ACU System ery Under voltage 2007 08 27 09 17 51 CU System Ambient Temperature Sensor Fault 2007 08 27 09 17 41 CU System ISPD Fault 2007 08 27 09 17 41 ISMDU 8 ISMDU failure 2007 08 15 14 53 42 ISMDU 7 ISMDU failure 2007 08 15 14 53 01 ISMDU failure 2007 08 15 14 52 21 ISMDU failure 2007 08 15 14 51 40 ISMDU failure 2007 08 15 14 51 00 ISMDU failure 2007 08 15 14 50 18 SMDU failure 2007 08 15 14 49 38 ISMDU failure 2007 08 15 14 48 57 Temperature sensor failure 2007 08 14 11 11 37 System Voltage CU SE TE O ES CT BM State Float Charge logout A A tr Ro Figure 5 38 Get Setting Parameter User can click the button of Get Setting Parameter to get the setting parameter of M800D monitoring module Click the sub menu of Auto Configuration following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 70 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster EMERSON FLEX 48701 Auto Configuration J l Through this function User can realize the Auto Configuration gt DEVICE EXPLORE Battery Group Auto Configuration DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group D gt ALARMS D gt SETTINGS D gt MAINTENANCE Lf D gt QUERY S
11. Battery2 Battery2 Full name Set DC Distribution DC Full name Set DC Fuse DC Fuse Full name Set Battery Fuse Group Batt Fuse Grp Full name Set Battery Fuse Bat Fuse y Full name v Set LYD Group LYD Group Full name ser LVD1 LVD1 Full name Set LVD2 LVD2 gt Alarm level Relative device Full name Signal name Rectifier lost 2007 08 16 Sample time 6 43 48 _ gt MN CU system Very Under voltage 2007 08 16 16 43 23 3 oA acU System Ambient Temperature Sensor Fault 2007 08 16 16 43 13 ACU System SPD Fault 2007 08 16 16 43 13 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 4 50 18 Figure 5 41 Modify device In the screen shown in Figure 4 41 user can modify the device name All entering the new device name click Set to validate the change NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 72 Chapter 5 Use Of Monitoring Module M800D The charact
12. 5 Oly gt gt u n2 O pa HF a o a O E 4 O a E Ola REO O as O O A L A RELAY QUTPUT nsorl OOl c Temp Si BAR CODE Temp Sensor O 00009 s ae Jwz o 4 y ae E F Co Jun E O 00009 n O mla 2909 1000005 z2 3 3 7 AO 600009 El 2 3 Figure 2 7 S6415X2 interface NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Table 2 3 Interface functions Chapter 2 Installation Instruction 9 Connector Pin Signal name Mark number Logic relation 1 Relay output 1 normal close DO1_NC 2 Relay output 2 normal close DO2_NC Ja 3 Relay output 1 common DO1_COM 4 Relay output 2 common DO2_COM 5 Relay output 1 normal open DO1_NO 6 Relay output 2 normal open DO2_NO 1 Relay output 3 normal close DO3_NC 2 Relay output 4 normal close DO4_NC J4 3 Relay output 3 common DO3_COM 4 Relay output 4 common DO4_COM 5 Relay output 3 normal open DO3_NO 6 Re
13. SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 Figure 5 6 Rectifier screen 1 The signals in the screen shown in Figure 4 6 are all the actually sampled values such as Total current Average voltage and so on In the screen click the button Control and the following screen pops up Emerson EnergyMaster Sample Control Setting FLEX 48 Signal name Value Unit Control time Set value Set 1 Voltage Trim 53 5 V 2007 08 16 15 58 26 DEVICE EXPLORE 2 Rectifer Current Limit 121 2007 08 16 11 07 44 3 DC On Off Control Open All Open A11 v Battery Group 4 AC On Off Control Open All Open All i Set DC Distribution Battery Fuse Group 5 All LED control All Clear 2007 08 16 11 16 06 All Clear Mi Set Pele 6 Fan full speed control Half Speed a Half Speed Al set SMDU Group 7 _ Rectifier On When AC mi m CRE ALARMS Over voltag SETTINGS Reset Rectifier lost alarm Reset A set MAINTENANCE QUERY Site map Alarm level vice Signal name Sample time es Rectifier lost 2007 08 16 11 07 50 WA CU System Very Under voltage 2007 08 16 11 07 24 AA System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 ACU Syst
14. Version The number of the rectifier in the typical power supply system 5 If the number ranges between 0 9 the character is represented by a number If the number is larger than 9 the character is represented by a letter for example A represents the number 10 B represents the number 11 and so on Region A Asia Pacific region A Output power of the rectifier 501 1800W 701 3200W Brand name of the power supply system Figure 1 2 Model information 2 1 2 Composition And Configuration System composition The system consists of power distribution parts rectifiers and monitoring module The rectifier model is R48 1800 R48 2900U or R48 3200 and the model of the monitoring module is M501D or M500D The internal structures of the systems are shown in Figure 1 3 to Figure 1 6 Positive terminais El Iererereteleleler o o ovy ES Load MCB a S QUEEN Dlolololal ol o Le Battery MCB AC input MCB Monitoring module D Rectifier E id
15. Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save 2 The value description of the parameters is listed below Table 4 13 DC rectifier parameter description Parameter Range Default Value description ee The rectifier over voltage alarm will be raised when the Rect Over Vol POTON 59V rectifier output voltage is higher than the Rect Over Volt The Default Volt When the communication between the rectifier and the must be lower than Default Volt 48V 58V 53 5V monitoring module is interrupted the output voltage of the the Rect Over Volt rectifier is the default voltage Walkin Enabled Y N N The output soft start function means the rectifier voltage will rise from OV to the Walkin Time 8s 128s 8s Default Volt after the Walkin Time Rectifier input 1A 50A 30A Th Parr oo mere an e current limit e monitoring module limits the rectifier input current within the limit value Fan Speed Full Speed Half Half When set to Half Speed the rectifier will regulate the fan speed according to Speed speed the temperature When set to Full Speed the fan will operate at full speed The rectifier will shut off automatically upon over voltage and restart after a certain delay to see whether it is still over voltage then That delay is set through HVSD Tim
16. BATTERY SETTING BATTERY SETTING A gt Batt Selection gt Batt Test LVD Setting Temp Comp Charge w What follows is the description of the parameter functions and values by dividing them into 5 small categories and 5 big categories NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 25 4 7 2 Battery Selection 1 The first page of the Battery Selection is shown below Mode Manual Batt String 2 Capacity 300Ah Batt Name 1 vw Use Y or A to select the page and the parameter to be set and lt or gt to select the proper value for the parameter Press ENT to confirm After setting the Battery Type the following prompt will appear asking you to name a certain type of battery for the sake of identifying them Battery Name gt Batti To name a rectifier you can use A or Y to change the number and lt 4 or gt to move the cursor left or right Press ENT to confirm afterwards 2 If setting parameter System Type does not require setting the battery shunt coefficient the second page of the basic battery settings is as follows Batt Shunt1 A Y Batt Shunt2 Y 3 If setting parameter System Type requires setting the battery shunt coefficient the second page of the basic battery settings is as follows Batt Shunt1 YesA
17. If it is a rectifier that raised the alarm the ID of that rectifier will be displayed 4 At any Alarm History information page press ESC repeatedly to return to the higher level menus 6 5 3 Changing Audio Video Alarm And Alarm Callback The monitoring module provides different audio video alarms and alarm Callbacks for active alarms of different alarm levels as show in Table 5 3 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 88 Chapter 6 Use Of Monitoring Module M501D Table 6 3 Different alarms and call back modes for different alarm levels Alarm level Alarm red indicator Alarm amber indicator Alarm loudspeaker Alarm callback Remarks Gricaralam o on 7 Set Callback Majoralarm e 0 Set Galback Therefore when the alarm levels of the alarms are changed there will be different audio video alarm and alarm callback Press any key of the monitoring module and the alarm beeping will be silenced If all the alarms have resumed normal the alarm beeping will be silenced and the alarm indicators will be off The user can flexibly set the alarm beeping time of the monitoring module and choose not to generate alarm beeping For details please refer to 6 7 2 Alarm Settings 6 5 4 Change Alarm Types Of Dry Contacts As one of the alarm type parameter Related Relay refers to the serial No of the dry contract corresponding to the alarm type whose value is eith
18. DC Distribution 6 r Fus O ES E Battery Fuse Group 7 r Fuse2 o LVD Group 8 oa o AC Group SMDU Group Loader All alarm Observation Major e Index Alarm level Relative device Signal name Sample time R ALARMS BRB SETTINGS MAINTENANCE 1 RectifierGroup Rectifier lost 2007 08 16 11 07 50 gt QUERY O o acu System Very Under voltage 2007 08 16 11 07 24 CU System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 ACU System SPD Fault 2007 08 16 11 07 14 Site map es 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 3 __ SMDU 4 SMDU failure 2007 08 15 14 51 00 2007 08 16 16 11 46 i SMDU 3 SMDU failure 2007 08 15 14 50 18 eS CI E E l TE Internet Figure 5 16 Data of SMDU1 Click the Control button to perform LVD control for example the user can set LVD1 control to on or off as shown in the following Figure Emerson EnergyMaster Sample Control Settina FLEX 48701 Index Signal name Value Unit Control time __ Set value _ value LVD1 Control on gt DEVICE EXPLORE LVD2 Control on Z on on Set Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group gt ALARMS All alarm Observatio
19. NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 92 Chapter 6 Use Of Monitoring Module M501D ae Default Default Associated No Alarm name Alarm description A alarm level associated relay setting parameters During the discharge of the battery when the battery voltage is lower than the set value of the pattery protection parameter or the discharge time Critical 4 Battery protect exceeds the set value of the LVD2 protection time alarm Battery LVD enabled parameter the battery protection contactor will be automatically disconnected Manual control of battery LVD The charging current of battery pack 1 is larger than P Battery charge ang X p i q Observation Battery charge 5 the set value of the parameter charging N A over current alarm over current over current threshold 6 Battery bypass Overload short circuit manual disconnection or Critical N A disconnected alarm circuit error alarm monitorin monitoring module 7 9 Hardware self detection error No alarm N A 9 module fault fault Manua The monitoring battery management is in manual 8 management of 9 y 9 No alarm N A state module 9 Battery non float Including auto boost charge cyclic boost charge Na alain 7 Battery non float charge state constant current test fast test charge state Batter PAN 10 4 Battery is disch
20. 1 2043040501 lt CurrLimit 34 1 2043040501 lt 54 1V 30 24 AC Derated Y Temp Derated N y AC On DC On AC 220V v The information of every rectifier is displayed in two pages The information in the first screen includes the last 10 digits of the serial number of the corresponding module the output voltage output current the AC DC switch status the AC input voltage The information in the second screen includes the last 10 digits of the serial number of the corresponding module the current limiting threshold the AC power derated status the temperature derated status Press to scroll to the next page or lt to return to the last 4 Press V or A to view other rectifiers information The information of 48 modules can be displayed at most If the module does not exist no information will be displayed If the communication of the module is interrupted the information will be highlighted 5 At any rectifier information page press ESC repeatedly and you can return to the higher level menus Querying And Handling Alarms The monitoring module can locate and record the system fault according to the collected data generate audio and video alarm and dry contact output according to the set alarm level and report the alarm to the MC Meanwhile the user can query the alarm history record and active alarm record on the LCD of the monitoring module Querying Active Alarm When a new alarm is raised if there is
21. 8 There are 22 load alarm signal cables in the DU all connected to the monitoring backboard via the two signal transfer boards in the DU 9 This diagram describes the flexible configuration system The actual wiring devices and components configured are determined by the configuration document and described in corresponding design document 1 Before wiring attach specified labels to the corresponding positions according to the design document 2 Peel the heat shrinkable tube before wiring if the cable terminal is wrapped with it If the cable needs no connection Figure 1 NetSure 501 A50 wiring diagram NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 114 Appendix 3 Wiring Diagram Rectifier subrack1 Rear view To 1 PL busbar e w 5 a EE tE a TE T oo oo oo oo o i goo goo goo goo E goo gee god slr eat J va nfof wana apf sans verso versus AC input distribution schemes Scheme 1 for 3P
22. Cyclic Boost Time 30 2880min 720min The attery charging voltage is the preset Boost and the time is the preset Cyclic Boost Time To Boost Current 0 050 0 080C40 0 06C The monitoring module will control the system enter the BC state when the battery capacity decreases to the value of To Boost Capacity or To Boost Capacity 10 99 80 when the charge current reaches the To Boost Current The charge voltage will be the Boost Constant BC Current 0 002 0 02 Cio 0 01C40 The system in the BC state will enter the FC state when the charge 180min current decreases to the Constant BC Curr and after the Duration Durati f B 1440mi uration of constant oe 30 omi The battery charge voltage then will be the Float To ensure safety the monitoring module will forcefully control the system to enter the FC state if during the BC state the BC time reaches the Boost Limit or abnormalities occur such as AC failure battery route faulty and rectifier communication failure etc Boost Limit 60 2880min 1080min NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 28 Chapter 4 Use Of Monitoring Module M500D 3 The BC FC switchover diagram is shown below FC time longer than Scheduled BC Interval A Battery charge current N Pa bigger than To BC Current e ERA i Sy A LA Battery capacity smaller
23. FLEX 48701 DEVICE EXPLORE All device Y 2007 08 16 00 00 00 2007 08 16 23 59 59 Query Download amp EMERSON Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group gt ALARMS SETTINGS MAINTENANCE QUERY al Battery Group Automatic Boost Charge DA 2007 08 16 11 07 24 2007 08 16 14 07 37 2 ACU System Mains Failure CA 2007 08 16 11 07 31 2007 08 16 11 07 47 3 AC Unit Severe Mains Failure CA 2007 08 16 11 07 29 2007 08 16 11 07 45 4 RectifierGroup Rectifier lost MA 2007 08 16 10 55 48 2007 08 16 11 07 14 5 Battery Group Automatic Boost Charge DA 2007 08 16 10 55 23 2007 08 16 11 07 14 6 ACU System Very Under voltage MA 2007 08 16 10 55 23 2007 08 16 11 07 11 7 ACU System pba ene Ao OA 2007 08 16 10 55 13 2007 08 16 11 07 11 Sensor Fault 8 ACU System SPD Fault DA 2007 08 16 10 55 13 2007 08 16 11 07 11 9 ACU System Mains Failure CA 2007 08 16 10 55 30 2007 08 16 10 55 46 10 AC Unit Severe Mains Failure CA 2007 08 16 10 55 28 2007 08 16 10 55 44 RectifierGroup Rectifier lost MA 2007 08 16 10 38 39 2007 08 16 10 55 13 ps lt Site map 2007 08 16 16 2 EzE gt gt Ambient Temperature Sensor Fault 2007 08 16 11 07 14 SPD Fault 2007 08 16 11 07 14 SMDU failure 2007 08 15 14 53 42 SMD
24. and gt to select the needed action Start The options include FC BC and Test If system is not configured with any battery the control would be invalid lf there is AC power off alarm or the busbar voltage is too low the BC and battery test control will not be executed by the system No battery test control can be conducted when the rectifier communication is interrupted Finally after the battery test the battery management mode will be changed from Manual to Auto automatically Battery The options include Reconnect and Disconnect If there is no battery or there is a battery alarm the battery operations will be invalid Load The options include Reconnect and Disconnect The following maintenance over the rectifier can be conducted only when the power system is in the FC state RectTrim Range 42V 58V It can be used to improve the current sharing among rectifiers Note that the value of this parameter cannot exceed the over voltage alarm point or the parameter will be invalid RectLimit Range 10 121 The maintenance operations over a single rectifier include DC ON OFF AC ON OFF and Reset The operation method is 1 Use A or Y to select the rectifier parameter and lt or gt to change the rectifier serial No Then press ENT to confirm The bottom line of the page displays the rectifi
25. 2 If the alarm is caused by mains failure check if certain loads can be disconnected to prolong the operation of the whole system 5 DC Volt Low 3 If the alarm is due to rectifier fault find out the faulty rectifier and replace it 4 Compare the total load current with the rectifier current and the former should not be bigger than the later at FC voltage otherwise partial loads must be disconnected to ensure the safe operation of the whole system Add several rectifiers to make the total rectifier current bigger than 120 of the total load current In addition there must be at least 1 rectifier for redundancy standby Load Fuse Alarm Check if the MCB of the route is switched off If the MCB is open find out the fault and remove it Batt Fuse Alarm Otherwise the alarm loop is faulty Please contact Emerson NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 106 Chapter 7 Alarm Handling No Alarm Handling method 1 Check if there is mains failure or the battery voltage is lower than the BLVD value or the battery 7 LVD2 discharge time is more than the BLVD Time 2 The battery is disconnected from the system manually 8 Rect Failure The red LED on the rectifier will turn on 1 Reset the rectifier by powering it off and then on again 2 If the rectifier still causes this alarm replace it 9 Rect Protect Check if the mains is outside the
26. After selecting a value in the Modify Password and pressing the ENT key the password may be modified Enter Password gt 123456 Input Again To name a password use A or Y to modify the number and or gt to move the direction Upon modification press ENT key to confirm During the setting process it must input the same numbers twice 4 Password setting and use rules 1 Password can be set to 0 to 6 digits O digit indicates there is no password When modifying the password set the first digit of the password to or null indicating there is no password 2 The password can be set to numbers and capital letters and lowercase The capital letters and lowercase are different 3 After inputting the correct password stop operating the keypads and the password will remain valid for 4 minutes In other words if the user inputs the correct password and operates the keypad constantly the password will be valid If no operation is performed to the keypad the password will be invalid after 4 minutes 4 If the user level password is identical with the administrator level password the monitoring module will consider the administrator level password as the default password authority by default That is to say if it is set to null by the administrator all users can access with the administrator level GJ Note If the administrator password is set to null all operations to the monitoring module will be open
27. OverVolt than the LowVolt To avoid alrm The monitoring module will raise an alarm when the disorder it is suggested to use LowVolt 50V 300V 180V ae A Se AC input voltage is lower than the LowVolt the default values The monitoring module will raise an alarm when the AC voltage of an operating route is lower than the The UnderVolt must be lower UnderVolt 50V 300V 80V UnderVolt but there will be no alarm when the AC than the LowVolt voltage of the standby route is lower than the UnderVolt Set this parameter according to the actual situation In a system with an AC sampling 3 phase Single iat ee as i AC Input Phas None 3 phase board you can only select Single Phase or 3 phase in a system without an AC sampling board you can select only None NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 31 4 7 8 DC Settings 1 There are three related pages as shown below DC VOLT ALARM AMB TEMP ALARMA Over 58 5V High 50 C Load Shunt A None Low 45 0V Low 0 Cc Under 45 0V Shunt Coeff 500A 75mV Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save 2 The value description of the parameters is listed below Table 4 12 DC setting parameter descrip
28. 2 Use A or Y keys to select the Status sub menu in the main menu and press ENT to confirm STATUS gt Rectifiers Active Alarm Alarm History 3 Use A or Y to select the Rectifiers submenu as shown in the above figure Press ENT to confirm Rectifier A Rectifier 1 A SW V1 20 53 5V 12 3A Power Used 63 PC 1RS4800 Ino On Out On Temp Derated Y PR A00 AC Volt 220V y v SS 01051200012 w The information of every rectifier is displayed in three pages The information in the first page includes output voltage and current input output on off state and AC input voltage The information in the second page includes the states of Power Used the percentage of actual output power in rated output power and Temp Derated The information in the third page includes software version SW product code PC product reversion PR and serial number SS Press to scroll to the next page or lt to return to the last 4 Press Y or A to query other rectifier s information At most 48 pieces of rectifier s information can be displayed If the rectifier does not exist there will be no information If the rectifier communication is interrupted the information will be displayed in high light 5 At any rectifier information page press ESC repeatedly and you can return to the higher level menus Querying Alarms And Setting Alarm Plans The
29. Battery Name 10 characters Name different battery types to identify them Batt Shunt1 Yes No Yes Select Y when a corresponding shunt is configured otherwise select N Batt Shunt2 A Yes Battery management aims at only the batteries connected to the shunt In the system type setting if the parameter Shunt is set to Y this parameter will be displayed Otherwise this parameter will take the default value and is the same for both battery strings Shunt Coeff shunt Dependent on system type coefficient p y YR 4 7 3 LVD Parameter Description 1 Function description LLVD means the monitoring module opens the LLVD contactor so that the non priority load will be powered off In this way the battery remaining capacity can sustain the priority load longer BLVD means the monitoring module opens the BLVD contactor In this way the battery will stop powering the load preventing over discharge 2 There are 3 related pages as shown below LLVD Enable Y LVD VOLTAGE A LVD TIME A BLVD Enable Y LLVD 44 0V LLVD 300min LVD Mode BLVD 43 2 V BLVD 600min Voltage w v v Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save Note Generally you do not need to set the LVD parameters value The defaults will do 3 The value description of the LVD parameters is listed bel
30. C Low 5 C DC Volt Alarm Over 58 5V Low 45 0V Under 45 0V When conducting setting use Y or A key to select one of screens or parameter items to be set and lt or gt to select the parameter value Then press ENT key to confirm and save The value of DC parameters is described as follows Table 6 15 Description of DC parameters Parameter Seung perau Value description range value Over 58 5V The DC Over Voltage alarm will be raised when the system over voltage DC output voltage is higher than the value of Over The values of these Low 40V to 60V 45 0V The DC low voltage alarm will be raised when the system DC three parameters low voltage output voltage is lower than the value of Low should be Over gt Under 45 0V The DC under voltage alarm will be raised when the system Low gt Under under voltage DC output voltage is lower than the value of Under High high 40 C to 40 C The high temperature alarm will be raised when the detected The value of temperature 100 C ambient temperature is higher than the value of High parameter High must Low low 40 C to 5C The low temperature alarm will be raised when the detected be higher than that of temperature 100 C ambient temperature is lower than the value of Low parameter Low Shunt enable Available N A Set according to the actual system configuration Unavailable Coefficient Subject to
31. DC circuit to earth 50Hz 1 000Vac or 1414Vdc Insulation strength Assistant circuit not directly connected to the host circuit 50Hz 500Vac AC to DC circuits 50Hz 3 000Vac or 4242Vdc For all the three tests above there should be no breakdown or flashover within 1min with leakage current not bigger than 10Ma MTBF 200 000hr ROHS Compliant with R5 requirement NetSure 501 A50 483 W x 380 D x 267 H A dmihsione oi NetSure 501 AAO 483 W x 380 D x 490 H fte s brack NetSure 701 A51 PS48300 3A 3200 483 W x 380 D x 445 H A NetSure 701 A51 PS48300 3A 3200 X2 483 W x 380 D x 311 Dimensions H mim Monitoring module 78 5 W x 287 D M501D M500D Be AP ee W x 287 1D oi R48 1800 87 9 H x 85 3 W x 272 D Mechanics Rena R48 3200 R48 2900U 132 5 H x 88 W x 287 D a k OR NetSure 501 A50 NetSure 701 A51 lt 25 NetSure 501 AAO lt 30 module Weight kg Monitoring module M501D M500D on Rectifier R48 1800 lt 2 0 R48 3200 R48 2900U lt 3 5 Table 2 Input and output connector specs Connector Specs Remarks Capaciy AC input MCB Conliguned according t The live line of AC power supply Connected to the grounding bar of the room Cable CSA lt 35mm Small terminal cable CSA lt 16mm large terminal cable CSA lt 50mm 2 x 125A 1P MCB 112 Appendix 1 Technical And Engineering Data Connector Remarks Capacity Connector specs NetSure 501 A50 BLVD load route 3 x 6
32. NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 10 Chapter 2 Installation Instruction powered on In the modem mode the monitoring module will initialize modem upon power on reset or upon communication interruptions that last more than one hour NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 3 1 3 2 Chapter 3 Installation Testing 11 Chapter 3 Installation Testing This chapter introduces procedures of installation testing The corresponding safety rules shall be adhered to in the test Installation Check And Startup Before the test inform the chief manufacturer representative Only trained electrical engineer can maintain and operate this equipment In operation the installation personnel are not allowed to wear conductive objects such as watches bracelets bangles and rings During operation parts of this equipment carry hazardous voltage Misoperation can result in severe or fatal injuries and property damage Before the test check the equipment to ensure the proper earthing Installation check must be done before testing Then the batteries can be charged for the first time Make sure that the AC input MCBs battery MCBs and load MCBs are switched off Make sure that all the devices are properly installed Installation check OK Comments Check all the MCBs and cables Are their models correct Check the bus ba
33. Rect 4 Rect 10 Wt Nt 11 ac J 230VAC 230VAC 230VAC 230VAC 230VAC 230VAC 230VAC 230VAC 230VAC 230VAC Note 1 The AC distribution has 3 schemes determined by user requirement Refer to diagram 2 2 The maximum output current of the MFU is 300A 3 The number of the 1QFx and 2QFx in MFU is configurable The total width of the load MCBs should be smaller than 190mm 4 The DU is optional The number of the 3QFx 4QFx and 5QFx in MFU is configurable The total width of the load MCBs should be smaller than the installation size 5 The monitoring module can be M501D or M800D 6 The number of the battery MCBs can be 2 or 3 7 The LLVD contactor KM2 is configurable Figure 8 Schematic diagram of NetSure 501 AAO 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 3 Schematic Diagram 121 Scheme 1 for 3P N PE 380V SPD AC input Scheme 2 for 3P N PE 380V AC input N L1 l2 13 N ce o Co i QF1 QF1 A PE Bar LE A A de L N Bar A N N Bar Scheme 3 i for 3P PE 220V SPD AC input QF2
34. Total times of Deep Discharge 1 2007 08 22 11 31 20 10 Predict discharge time 360 0 h 2007 08 22 11 32 12 11 Battery management state Float charge 2007 08 22 11 30 50 12 Expected Current Limitation 0 100 010 2007 08 22 11 31 00 D D b O D oup D e 5 Signal name Sample time ALAR ae lost 2007 08 22 11 31 16 2 WN ACU System Very Under voltage 2007 08 22 11 30 51 A A 3 A acu System Ambient Temperature Sensor Fault 2007 08 22 11 30 41 QUER 4 oA AcUsystem SPD Fault 2007 08 22 11 30 41 SMDU 8 SMDU failure 2007 08 15 14 53 42 i SMDU 7 SMDU failure 2007 08 15 14 53 01 ap SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 SMDU 4 SMDU failure 2007 08 15 14 51 00 2007 08 22 11 32 16 SMDU 3 SMDU failure 2007 08 15 14 50 18 44 MALL MOL failure 2007 08 15 14 40 a Ela ll Internet Figure 5 11 Battery screen sampled value of battery In Figure 4 11 the battery voltage is the total battery string voltage The battery current is the total battery current Similar to browse the control values of the rectifier click the button Control to view the control signals of the battery as shown in Figure 4 12 Emerson EnergyMaster Sample Control FLEX 48701 Index Signal name VANE Unit ntrol time Set value 1 Boost Float charge control Float Charge 2007 08 16 14 07 36 Float Charge Float Charge gt DEVICE EXPLORE Battery test control stopi 2007 08 16 11 07 22 Reset
35. a parameter setting ESC Return Key A Up These four arrow keys can be used to change Press A or Y to scroll through the menus v Down the value of a parameter Press A or Y to move lt Left the cursor to the parameter to be changed and Change the edit value of a parameter In main screen press lt or gt to change the value of a gt Right press lt or to adjust the contrast of LCD parameter NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 5 2 5 2 1 5 2 2 5 2 3 Chapter 5 Use Of Monitoring Module M800D 37 Use Of The Operation Panel The first screen is the language selecting screen as shown in the following figure User can select English or other language in the screen by pressing A and Y and press ENT to enter the main screen after selecting the language If no key has been pressed for 30 seconds user will enter the main screen directly Ris English Main Screen The main screen is shown in the following figure 2005 06 30 a 53 5V 7 8A System Alarm Float Charge The main screen displays system time DC voltage DC current system status and battery status The system time displays the date and time alternatively In the default main screen Press lt or gt to change the contrast of LCD Press A and Y and ESC together to log out The password will be invalid Press ENT and ESC together to reset M800D Press
36. and record 10 sets of test data Battery test time 5 1440min 300min accessible only through the host The battery test has to be started manually then monitoring module will control the rectifier output voltage make it lower than the battery voltage and the battery discharge will begin Monitoring module will stop the test if the battery voltage reaches the Battery test voltage or the discharge time reaches Battery test time or the battery capacity reaches Test End Cap Afterwards it will restore the Tost 200 Cap COT 0 7019 rectifier output voltage to the normal FC voltage begin the battery charge capacity 0 9550 and switch the system to battery auto management Meanwhile the test start time voltage and end time voltage and battery remaining capacity will be recorded The records can be queried through the host During the battery test if abnormalities occur the monitoring module will stop the battery test automatically Scheduled Test Y N N Planned Test 1 00 00 Jan 1 When the parameter Scheduled Test is set to Y the monitoring module Planned Test 2 Month day 00 00 April 1 will test the battery according to the 4 sets of test time You can set at most Planned Test 3 hour 00 00 July 1 12 sets of test time through the host Planned Test 4 00 00 Oct 1 Alarm Current 1A 100A 10A If the battery have not discharged within the ShortTest Cycle the ShortTest Cyc
37. 16 16 34 32 Battery Group Temperature sensor failure 2007 08 14 11 11 37 Power Split Configuration Figure 5 28 Edit the boost charge parameter Click the sub menu of Time synchronization to calibrate the clock as shown in the screen below NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual gt e Bal Chapter 5 Use Of Monitoring Module M800D 63 Emerson EnergyMaster FLEX 48701 amp EMERSON gt DEVICE EXPLORE TASS CORD O Get time automatically from the following time servers i To 0 0 0 jo 0 0 0 Battery Group Primary server 00 Secondary server lo DC Distribution Interval to adjust time 60 Minutes Battery Fuse Group a 3 LVD Group O Specify time Get local time local time AC Group Date 2007 08 16 Time 16 35 55 SMDU Group A SETTINGS 3 All alarm Bal MAINTENANCE 1 Ambient Temperature Sensor Fault 2007 08 16 11 07 14 QUERY 2 JACU System SPD Fault 2007 08 16 11 07 14 3 SMDU 8 SMDU failure 2007 08 15 14 53 42 o 4 py SMDU failure 2007 08 15 14 53 01 Site map 5 SMDU 6 SMDU failure 2007 08 15 14 52 21 6 SMDU 5 SMDU failure 2007 08 15 14 51 40 7 ee 4 SMDU failure 2007 08 15 14 51 00 8 SMDU 3 SMDU failure 2007 08 15 14 50 18 9 SMDU 2 SSMDU failure 2007 08 15 14 49 38 p Pro OA Sibu
38. 21 Site map 8 SMDU 5 SMDU failure 2007 08 15 14 51 40 EN SMDU 4 SMDU failure 2007 08 15 14 51 00 SMDU 3 SMDU failure 2007 08 15 14 50 18 T oa smDU2 SMDU failure 2007 08 15 14 49 38 12 OA Su 4 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 52 04 13 0A Battery Group Temperature sensor failure 2007 08 14 11 11 37 NN EA Figure 5 47 Query battery test data In the screen shown in Figure 4 47 enter the last battery test time first and then click query to query the battery test data All the queried data can be down loaded and saved in a text file by clicking the Download button 5 4 Access M800D Through NMS 1 1 1 5 4 1 M800D has SNMP agent function The user can use NMS to do the three following operations e Query the operation status and input output signals of the device connected to M800D O Set the operation parameters of the device connected to M800D e Browse the active alarms When M800D generates alarms SNMP agent can notify the preset NMS through TRAP automatically NMS Supported By SNMP Agent The SNMP agent of M800D supports SNMPv2c All the NMS that supports SNMPv2c can be used to access M800D The NMS includes HP OpenView IBM NetView Novell ManageWise SunNet Manager and so on MIB Installation MIB installation The M800D MIB is located in the installation CD delivered together with M800D and file name is M800D power mib Use the MIB loading function of NMS to load the MIB
39. 27 09 35 03 SEXI O A System Load O 7 E Auto ELE Float Charge E Fg tetra Rao gt Figure 5 26 PLC Configuration In the PLC configuration screen you can configure the equipment name signal type and signal name to generate a kind of output signal User can learn the meanings of symbols such as AND OR XOR NOT and so on by checking the page of SYMBOLS INFORMATION For PLC configuration Select operator in PLC CONFIG page for example select OR e Edit Input1 Select equipment name for example select ACU System Select Signal Type for example select Sampling and then select SignalName e Edit Input2 Same with Edit Input1 e Edit output signals e Click Add to enable the PLC calculation or click Cancel to cancel the PLC setting Click Edit GC PowerSplit the following screen shows up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 62 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster FLEX 48701 DEVICE EXPLORE Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS MAINTENANCE QUERY Site map 2007 08 16 16 32 06 PowerSplit Mode MASTER Power Split Configuration Master Mi Configuration of GC_PowerSpi 4 EMERSON AAA ee ZA Signal Name Equip Name Signal Type
40. AN 20 ie than To BC Capacity Y gt FC BC In A E h ha Charge current POLA pansan BO 5 smallerthan time u A p Constant N ee BY u l LOA N Be y ye SE BC time longer than ps J BC LVD Time J X Abnormal situation such as AC failure battery route faulty and rectifier communication failure etc ao BC time longer than Cyclic BC se SS ES Figure 4 2 BC FC switchover diagram 4 7 5 Battery Test Parameters 1 There are seven related pages as shown below BATTERY TEST Test End Cap A Voltage 45 2 V 0 700 C10 Time 300 min Planed Test Vv N v Planed Test1 Planed Test3 01 02 12Hr 07 02 12Hr Planed Test 2 Planed Test4 04 02 12Hr 07 02 12Hr SHORT TEST A SHORT TEST STABLE TEST Enable Y Cycle 300h Enable Y Alarm Current Duration Current 10A v 5 min 9999 A Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 29 2 The value description of the parameters is listed below Table 4 9 Battery test parameters description Parameter Range Default Value description Battery test voltage 43 1V 57 9V 45 2V The monitoring module can do battery test
41. Battery Capacity Yes Reset abnormal batt curr Yes et alarm Reset discharge curr RA fe 5 imbalance ves i ges Es Reset Bad Battery Alarm Nol No v Set DC Distribution lt gt Battery Fuse Group All alarm servation Maior Critical Peete mae Alarm level Relative device Signal Sample time SMDU Group RectifierGroup Rectifier lost 2007 08 16 11 07 50 ALARMS 2 A ACU system Very Under voltage 2007 08 16 11 07 24 SETTINGS 3 boa acu System bient Temperature Sensor Fault 2007 08 16 11 07 14 MAINTENANCE ACU System ISPD Fault 2007 08 16 11 07 14 QUERY SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 AAA gt SMDU 6 SMDU failure 2007 08 15 14 52 21 Site map SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 ERE 2007 08 16 16 02 45 Figure 5 12 Control the battery group In the screen shown in Figure 4 12 the user can control the battery For example in the Set value box of Boost Float charge control the user can set the Float Charge to Boost Charge and click the button set to make the setting become effective Click the button setting to view setting signals of the battery as shown in Figure 4 13 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 52 Chapter 5 Use
42. DO1 Delete D OR ADD Battery Group SYMBOLS INFORMATION DC D butio gt po 1 R which defines a Register Usage R Register_ID 0 lt Register_ID lt 99 A oup 2 P which defines a Parameter Usage P The Value D pup 3 SET which represent SET command Usage SET _ _ Parameter1 _ Output isn M4 AND which represent AND command Usage AND Input1 Input2 _ _ Output A PARTE PLC CONFIG o A Signal Input Register E j D i erator aram Signal Y Output Register Y p aad tp ii ACU a a Samping y System Votage xy Voltage EquipName Register SignalType SignalName EN Signal Mpio Register Em Eo ETETUYA ACU System Y EquipName Register SignalType SignalName x ACU System Samping 7 System Votage y 2 ACU System Very Under voltage 2007 08 27 09 17 51 3 a sS SACCU System Ambient Temperature Sensor Fault 2007 08 27 09 17 41 CU System ISPD Fault 2007 08 27 09 17 41 ISMDU 8 ISMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 14 52 21 ao m 5 SMDU failure 2007 08 15 14 51 40 9 SMDU 4 SMDU failure 2007 08 15 14 51 00 170 oA SSD SMDU failure 2007 08 15 14 50 18 1 OA smu SMDU failure 2007 08 15 14 49 38 12 PA 1 SMDU failure 2007 08 15 14 48 57 oe SS Battery Group Temperature sensor failure 2007 08 14 11 11 37 2007 08
43. Figure 4 1 Run indicator Protection indicator td 8 MEEA EMERSON Alarm indicator ho DO LCD Xx Y Bc JL lt Ja RE Functional keys M800D Figure 5 1 M800D panel Functions of LED indicators are illustrated in Table 4 1 Table 5 1 Functions of LED indicators ED Normal sietus Abnormal sas Run Indicator green No power supply Protection Indicator yellow The power system has at least an observation alarm The power system has at least a major alarm or critical Alarm Indicator red er y jor alarm or critica M800D controller uses a 128 x 64 dot matrix LCD unit It has 6 functional keys lts interface is easy to use and it supports multi language English Chinese French Spanish Portuguese Italian and Swedish display The functions of these 6 keys are shown in Table 4 2 Table 5 2 Functions of M800D keys Keys Name of keys Functions Press this key to back to previous menu or cancel a setting of a parameter Press this key to go to next menu or highlight editable Press ESC and ENT together to reset M800D ENT Enter key area for parameter setting validate the change made to
44. If the control command can be executed the system prompts to press ENT for confirmation and then the control action becomes valid or the user can press the ESC key to abandon the operation If the control conditions are not satisfied the monitoring module will prompt that the control operation cannot be conducted Don t Maintain Press ENT to run ESC return ESC Key Quit 7 Press the ESC key on any Maintenance screen the user can directly return to the main menu 4 system control output Repeatedly press the ESC key the user can return to the root screen of the system information screen 6 7 Setting System Parameters 6 7 1 Battery parameters are very important for they are related to the life of battery Before delivery the battery parameters have been initialized Without any special needs you only need to reset the battery group number and battery capacity and accept the defaults for other parameters Parameter Setting Method 1 At any system information page press ENT to enter the main menu MAINMENU gt Status Maintenance Settings 2 Press A or Y to select the submenu Settings and press ENT to confirm System will then prompt you to input the password Enter Password gt 123456 3 Press lt or gt to select the number of password digits Enter the password digit by digit using A or Y Press ENT to confirm and enter the parameter setting submenu SETTINGS SETTINGS gt Alarms Settin
45. LI L213 A A i i i A i X A A k Signal Board Signal Board gj tian 9 6 a o o 6 HiH 4 4 4 4 MENTA JE p eee eae j Ep ae AA 180618062 30F3 30Fx MOF 4ar2 140F3 40Fx 5QF1 50F2 150F3 50Fx B242HFX1 B242HFX1 PEB ABr A PL NPE uh S NPL NA A A A A T E 2 Multifunction Unit Monitor PE Bar L1 L2 L3 N 0 A A M501D or M800D l Ao pl A Connector Board HE 7 9 7 N Bar I rt T PD2 ES MOFT MOFx N2QF1 AZQFX W24C3X1 LS to PD2 Lo PL E NPL__ gt Monitor Back Board SPD z _Bat 3 9n3 i FDI K to OV Bat 2 0D2 i pia Note Tet 001 RB 1 The AC distribution has 3 schemes determined by user requirement bili gt T EE lees Shunt e Rectifier Unit 48V CAN N Rect 5 j 230VAC 230VAC 230VAC 230VAC 230VAC Note 1 The AC distribution has 3 schemes determined by user requirement Refer to diagram 2 2 The maximum output current of the MFU is 150A 3 The number of the 1QFx and 2QFx in MFU is configurable The total width of the load MCBs should be smaller than 190mm 4 The DU is optional The number of the 3QFx 4QFx and 5QFx in MFU is configurable The total width of the load MCBs should be smaller than 410mm 5 The monitoring module can be M501D or M800D 6 The number of the battery MCBs can be 2 or 3 7 The LLVD contactor KM2 is configurable Figure 4 Schematic diagram of NetSure 501 A50 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power
46. Malu 40 o Parameter TIET a oa coders EETA 41 5 3 Access M800D Through Web cccesescereeeeneeeeseneeseseneeeensenensnseneesesuenesesseseneeeeneesesenseseeedenenseeeeseseeeeneseesenenes 44 5 3 1 Overview Of Web FUNCION cita vee ihe edges haiti at shin detest 44 53 2 OG IMs vise oiatag eee Aas eA TA 44 5 3 3 Homepage MNtroduCtioN sses e abi 46 BSA Device EXplores viicc cbcssceddecvuccepd nchcedesseeecnada T 47 SSO Alarms ainitn wien ies aii vied a an ed en ei ae tt 55 DSG SOlINGS tocarla cee etic hacer Mites nio Sesto et 57 5 3 7 Maintenance tia A Ad alana 63 53 8 QUe att tera A haat eta ote eee 72 5 4 Access M800D Through NMS sex arta ii id dra 75 1 1 1 NMS Supported By SNMP Agent cecceeceeeeeeeseneeeeeeeseeeeseaeeseaeeseaeesaeeseaeeseaeeseeeesaeeseaeeseaeeseeeessaeeeeaeeesas 75 54S MIB Installation cotidiana ada 75 5 4 2 Access M800D through MS iii dad 77 5 5 Parameter Setting Guidance wi 4 ena detec arts Rained date aide ada aa deere 77 55 1 Rectifier t EEEE diia 77 5 5 2 Battery Management Parametels cccessccecesesceeeeeeneeeeseeeenenensees sense sesensenedeesenseseneeseseaeesenensenenseneees 77 5 5 3 Energy Management Parameter Sonendra ei a E iar saan 80 5 5 4 Diesel Management Parameters cccesseceeeseecereeseneeeesneeneneeceseeneesesensesesaesenseseneeeeseneesenseeeesnsenenss 81 5 5 5 Power Split Paramotor incor ii 81 Chapter 6 Use Of Monitoring Module M501D oocoocccnncccioncc
47. Max Volt 221 Min Volt 220 BC prompt page Used Capacity 4 80 2 Next Cyc Boost 2397h If the monitoring module disables boost charge or boost charge is being conducted Oh will be displayed Temperature information screen Bat Temp None Amb Temp None If the monitoring module has not been configured with the temperature sensor the screen will not be displayed The temperature information detected by the temperature sensor will differ with different parameter configurations For details about the parameter configuration please refer to 6 7 3 Battery Settings If the temperature sensor has not been connected or fails in measurement invalid will be prompted 6 4 Querying Rectifier Status The module information includes the serial number of the rectifier the voltage current current limiting threshold of each module the AC DC status of the switch the module limited power and the temperature limited power 1 At any system information page press ENT to enter the main menu 2 Use A or Y keys to select the Status sub menu in the main menu and press ENT to confirm STATUS gt Rectifiers Active Alarm Alarm History 3 Use A or Y to select the Rectifiers submenu as shown in the above figure Press ENT to confirm NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 86 6 5 6 5 1 Chapter 6 Use Of Monitoring Module M501D
48. R48 3200 R48 2900U rated output current Test current range 10 100 rated current Derate by input at 45 C R48 1800 The rectifier outputs max 1700W power with input voltage 176Vac The rectifier outputs 800W power with input voltage 85Vac R48 3200 R48 2900U The rectifier outputs 100 power with input voltage 176Vac The rectifier outputs 50 power with input voltage 120Vac The rectifier outputs 18 75 power with input voltage 85Vac Over voltage protection The rectifier provides over voltage hardware and software protection The hardware protection point is 59 5V 0 5V and it requires manual resetting to restore operation The software protection point is between 56V and 59V 0 5V above output voltage 59V by default and can be set through the monitoring module There are two software protection modes which can be selected through the software at the host 1 Lock out at the first over voltage Once the output voltage reaches protection point the rectifier will shut off and hold that state It requires manual resetting to restore the operation 2 Lock out at the second over voltage When the output voltage reaches the software protection point the rectifier will shutdown and restart automatically after 5 seconds If the over voltage happens again within a set time default 5min Configurable through monitoring module the rectifier will shut off and hold that state It requires manual resetting to restore
49. Settings 1 aaa 101 617 7 System SONO cnt pian nish i dies dn Leech taal eee eee ds 102 Chapter 7 Alarm Handle aa 105 FAs Handling Alarms snapas es A AA ti es 105 7 2 Handling Rectifier Fault ccccscccccsesiitsne caked dat dated aed detiedl dite casted Antec ela avi aaa tees 106 Appendix 1 Technical And Engineering Data ooomccccnnnnncnnnncocnnnnccnnrnncnc nana rnn cnn ner 109 Appendix 2 Wiring Diagrams jc anes es ed ds 113 Appendix 3 Schematic Didgrants cii scien sind on ised died iia A od ee delta is at een seed cede ote 116 APpendix 4 GIOSSAIYs irii aoaie vice eter lit el eter 122 Chapter 1 Overview 1 Chapter 1 Overview This chapter introduces model description composition and configuration and features The system in this manual refers to the PS48150 3B 1800 NetSure 501 A50 abbreviated as NetSure 501 A50 PS48300 3C 1800 NetSure 501 AAO abbreviated as NetSure 501 AAO and PS48300 3A 3200 NetSure 701 A51 8 PS48300 3A 3200 X2 NetSure 701 A51 abbreviated as NetSure 701 A51 power supply system 1 1 Model Information Take PS48150 3B 1800 NetSure 501 A50 power supply system as an example the model description is given in Figure 1 1 and Figure 1 2 PS 48 150 3B 1800 Rated output power of the rectifier 1800W Version Rated output current 150A Rated output voltage 48V Power supply system Figure 1 1 Model information 1 NetSure 501 A 5 0
50. Signal Name Ex Edit BATTERY_TEST BOOST_CHARGE Other PowerSplit Setting Signals are there ACU SYSTEM Ambient Temperature Sensor Fault 2007 08 16 11 07 14 SPD Fault 2007 08 16 11 07 14 SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 SMDU failure 2007 08 15 14 49 38 SMDU failure 2007 08 15 14 48 57 Battery Group Temperature sensor failure 2007 08 14 11 11 37 Figure 5 27 Edit GC PowerSplit In the above screen click Edit button to configure the signals for example click the Edit button of BOOST_CHARGE Emerson EnergyMaster FLEX 48701 DEVICE EXPLORE Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS E ics gt MAINTENANCE CU System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 QUERY ACU System SPD Fault 2007 08 16 11 07 14 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 Site map SMDU 6 SSMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 SMDU 4 SSMDU failure 2007 08 15 14 51 00 8 SMDU 3 SMDU failure 2007 08 15 14 50 18 9 oa smDU2 SMDU failure 2007 08 15 14 49 38 1 1 pa SMU 4 SMDU failure 2007 08 15 14 48 57 2007 08
51. Supply System User Manual Appendix 3 Schematic Diagram 117 Distribution unit DE SRE ars E E Ce eee Signal transfer board Signal transfer board qe T pene T TY T m j i J I B242HFX1 B242HFX1 30F1 30F2 1 30F3 e e o 30Fx AOE AQF 403 e OF QF SOF 540F3 e o 50Fx PTA PL NPL NPL a S E ae pil cI Multi function unit l I Multi function unit ie ri A jen 1 i i 1 PE o l User connector board PE Bar Vid A PL A PA NPL A PD2 I Ll i W24C3X1 0 OF 1d 20F eee A 20Fy i a eae A Monitoring backboard Monitoring module Bat abi pot suncu l Bald 003 S6415X1 usoromsooo Bot 002 be Bat ao ah L poemen KM2 De unit Monitoring unit Rectifier unit E 230VAC 230VAC 230VAC 230VAC 230VAC Note 1 The AC distribution has 6 schemes determined by user requirement Refer to diagram 2 2 The maximum output current of the MFU is 300A 3 The number of the 1QF and 2QF in MFU is configurable The maximum number is 10 4 The DU is optional The number of the 3QF 4QF and SQF in MFU is configurable The maximum n
52. Supply System User Manual 40 5 2 4 Chapter 5 Use Of Monitoring Module M800D History Alarm Observation 2 Major 2 Critical 2 In the preceding screen press ENT to view the detailed history alarm information and one screen only displays one alarm 001 Diesel Group amp Diesel Test 050610 15 13 16 050610 16 17 20 w In the preceding screen 050610 15 13 16 is the start time of the alarm and 050610 16 17 20 is the end time of the alarm Maintain In the screen of Main Menu press A or Y to select the sub menu of Maintain and press ENT to activate the menu following screen pops up Select User admin Enter Password If the user has selected the user default user admin and entered the password default password 1 to set the parameters and if the user and password are still active he can directly implement the Maintain operation Otherwise he has to select the user and enter the password again See 5 3 6 Settings for the methods of selecting of user and password entry The Maintain screen is shown as follows Maintain gt ACU System Rect Group Rectifier If the equipment category has more than one piece of equipment the detailed equipment information will be displayed in two level menus For example the rectifier information is displayed in two level menus In the preceding screen select the sub menu of Rectifier and press ENT to display the firs
53. Test end voltage 43 1V to 45 2V The monitoring module can do battery test and record 10 sets of test data 57 9V i accessible only through the host The battery test has to be started 5 to 1440 manually then monitoring module will control the rectifier output voltage Test end time tes 300 minutes make it lower than the battery voltage and the battery discharge will begin Monitoring module will stop the test if the battery voltage reaches the Battery test voltage or the discharge time reaches Battery test time or the battery capacity reaches Test End Cap Afterwards it will restore the rectifier output voltage to the normal FC voltage begin the battery charge Test end capacity 0 01C1 to 0 7C4o and switch the system to battery auto management Meanwhile the test 0 95019 start time voltage and end time voltage and battery remaining capacity will be recorded The records can be queried through the host During the battery test if abnormalities occur the monitoring module will stop the battery test automatically Timing test enabled Yes No Yes oes 24 00 on Timing test time 1 January 1 When the parameter Scheduled Test is set to Y the monitoring module Timing test time 2 Month day 24 00 on April 1 will test the battery according to the 4 sets of test time You can set at most Timing test time 3 hour 24 00 on July 1 12 sets of test time through the host 24 00 on Planed test time 4 October 4 Fast test
54. The name N A The In the system without shall have no more than 10 characters Digital1 self defined digital AC collection board 36 Digital 1 alarm Digital8 can be changed according to the need No alarm 1 is associated the names of the 8 The high level or low level alarm can be set in the with the relay of ways can be alarm mode digital 8 self defined The alarm type setting parameters are described as follows Table 6 6 Description of alarm type parameters Default rae Parameter Setting range Value description value Names of 56 types of 3 Select the alarm events whose levels and associated relays need to be Alarm type Different alarm events reconfigured Critical alarm major aarmtypes Iti wines A 3 ne i i have The monitoring module provides different audio video alarms and alarm Level alarm observation 3 different Callbacks for alarm events of different alarm levels alarm no alarm levels and f p different When the value is null it indicates that there is corresponding dry contact Associated y output alarm information when the alarm event occurs Null No 1 No 8 associated A O h relay When the value is 1 8 it indicates that there is output alarm information of relays the dry contact No 1 8 when the alarm event occurs Description of alarm mode parameter function and value Different alarm modes can be set for the 8 way digital input alarm In the
55. Yes No No Cyclic Boost Charge Enabled Yes No No Nominal Voltage 48V 53 59 5V 53 5V 0 1V Boost Voltage 48V 53 59 5V 56 4V 0 1V Maximum Boost Charge Time 1 to 100 h 12h th FC to BC Current 0 05 to 0 08 Cio 0 06 Cio 0 001 Cio FC to BC Capacity 1 to 100 80 1 BC to FC Current 0 005 to 0 05 Cy 0 01 Cio 0 001 Cio BC to FC Delay 0 to 600 min 180 min 10 min Cyclic Charge Interval 2 to 365 days 180 days 1 day Cyclic Charge Duration 180 to 720 min 300 min 1 min 1 Automatic Boost Charge Enabled When Auto BC Enable is enabled DC Power System will start boost charge to the battery when the system meets the boost charge conditions 2 FC to BC Capacity and FC to BC Current When battery capacity downs to the setting of TO BC Capacity or the battery current reaches the setting of To BC Current M800D will control the DC Power System to make it start boost charging to the battery The battery charging voltage is the setting of BC Volt Boost Charge Voltage NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 79 Table 5 10 Alarms for boost charging Default category LED Alarm number Alarm name OA Y Cyclic Boost Charge OA Y Automatic Boost Charge OA Y Manually Boost Charge OA Y Abnormal Battery Current Temperature compensation parameters Table 5 11 Parameter and al
56. as large scale ICs Before touching any plug in board PCB or IC chip ESD wrist strap must be worn to prevent body static from damaging the sensitive components The other end of the ESD wrist strap must be well earthed V Short circuit A Danger During operation never short the positive and negative poles of the DC distribution unit of the system or the non grounding pole and the earth The power system is a constant voltage DC power equipment short circuit will result in equipment burning and endanger human safety Check carefully the polarity of the cable and connection terminal when performing DC live operations As the operation space in the DC distribution unit is very tight please carefully select the operation space Never wear a watch bracelet bangle ring or other conductive objects during operation Insulated tools must be used In live operation keep the arm muscle tense so that when tool connection is loosened the free movement of the human body and tool is reduced to a minimum Battery A Danger Before any operation on battery read carefully the safety precautions for battery transportation and the correct battery connection method Non standard operation on the battery will cause danger In operation precautions should be taken to prevent battery short circuit and overflow of electrolyte The overflow of electrolyte will erode the metal objects and PCBs thus causing equipment damage and short c
57. cide a a piers eine dd en heel dd eee nec lee 6 2 4 1 Connecting Power Gables cda 6 2 4 2 Connecting Signal Gables iio e aaa 7 Chapter 3 lnstallation Testing taa ia a 11 341 Installation Check And Startup facisecsesdececs fea csccesenecectia hocedeadesdsedeuereeieeadl vest O Ea aaa a ere tallas 11 3 2 Basic Settings niacin a aa ee 11 3 3 Alarm Check And System Operation Status Check c ceccecesceseeeeeeneeeeeeseaeeseaeeseaeeeeeeeseaeeeeaeeseaeeseaeessaeeneaeenaas 12 SIA FIMAl Ste O O 13 Chapter 4 Use Of Monitoring Module M500D ce eeceecceeeeeeeeneeeeeeeeeaeeeeaeeeeaeeeeaeeeeaeeseaeeseaeeeeaeeseaeeesieeeeeeseeeseeeeeieeeeneeee 14 4 1 Front Pamelsecevecccscves ladilla 14 4 2 POWE On OIE id ee os TO AAA ATT 14 4 3 Querying System Stat rasna andan Rada ade ae eatin 16 4 3 1 First iPage Of Systemi IO MatiON ici ir ts 16 4 3 2 Other System Information PageS ooocccocccnncccconcconnccnancnononanonccnnn nn nnn cn nan cnrn rca 16 4 4 Querying Rectifier Status tumor ota 18 4 5 Querying Alarms And Setting Alarm Plans cccecceesceeeseeeeeeeeeeeeeeeeeeeeeeaeeeeaeeeeaeeeeaeeseaeeeeeeeeeeeseeseneeenieeeeeees 18 4 51 Querying Active Alai al ii De aad eee Me 18 4 52 Querying Alarm Historyac8is katate eee neh Ai tain a in alate ea eee 19 4 5 3 Alarm Type Table smc ees Ht A ee aie 20 4 5 4 Changing Audible Visual Alarm And Alarm Call Back Plan cccceeccceseeeeeseeeeeeeeceeeeeeeeesneeeseeeesnaeeeeeeeeaas 22 4 5 5 C
58. database refer to the corresponding NMS user manual for the detailed loading method Contents of MIB This MIB is suitable for the firmware version 1 10 of M800D The MIB will change with the upgrading of M800D firmware The contents of MIB supported by M800D SNMP agent and the OID are listed in Table 4 4 For the details please refer to the file of M800D power mib NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 76 Chapter 5 Use Of Monitoring Module M800D Ident group identManufacturer identModel identName System Group systemStatus systemVoltage systemCurrent systemUsedCapacity psStatusCommunication psStatusBatteryMode SM series group psSMACNumber psSMBATNumber psSMIONumber psInput group psInputLineAVoltage psInputLineBVoltage psInputLineCVoltage ps Temperature Group psTemperature1 psTemperature2 alarm trap Group alarmLastTrapNo EEnJalarmTrapTable alarmTrapEntry alarmTrapNo alarmTime alarmStatusChange alarmSeverity identControllerFirmwareVersion Table 5 4 Contents of M800D MIB The name ofthe equpmentmanvfacturer SR The manufacturers model designation of he power system dR The firmware Sofware version ofthe controler fR Status of the complete plant highest alarm One of 1 unknown status has not yet been defined 2 normal there are no activated alarms 3 warning OA lowest level of abnormal status 4
59. in cyclic order Up to 200 alarms will be recorded Above that the earliest alarm will be cleared automatically 1 Alarm SPD Fault 040411 20 08 30 040411 22 08 30 At the monitoring module the displayed historical alarm information includes alarm serial No alarm name and alarm start end time year month day hour minute second If it is a rectifier that raised the alarm the ID of that rectifier will be displayed 4 At any Alarm History information page press ESC repeatedly to return to the higher level menus 4 5 3 Alarm Type Table The alarm type table of the system is as follows Table 4 3 Alarm type table Serial a Default Default Related parameter Alarm Description No alarm level related relay configuration Load failure caused by overload short circuit e 1 Load Fuse Alarm y rada Critical 6 manual disconnect and alarm circuit failure 2 LVD1 Load low voltage disconnects Critical 5 LLVD enabled 3 LVD2 Battery low voltage disconnects Critical BLVD enabled Charging current of battery higher than the settin 4 Batt Curr High a g 9 oe ae g Observation None of Over Charging over current limit Batt Failure caused by overload short circuit da 5 Batt Fuse Alarm ai y ES Critical None manual disconnect and alarm circuit failure Includi oost charge cyclic boost charge 6 Non Float Status neluding anos g8 Oy 9 NoAlarm 7 constant
60. minor A3 5 major MA 6 critical CA highest level of abnormal status 7 unmanaged 8 restricted 9 testing 10 disabled System voltage stored as mV System current stored as Ma Used capacity stored as of the total capacity The status of communication with the Power System 1 unknown 2 normal 3 interrupt indicates some errors occurred between Power System and agent The status of battery modes 1 unknown 2 FloatCharging 3 ShortTest 4 BoostChargingForTest 5 Manual Testing 6 PlanTesting 7 ACFailTesting 9 11 13 8 ACFail 9 ManualBoostCharging 10 AutoBoostCharging CyclicBoostCharging 12 MasterBoostCharging MasterBatteryTesting Table holding information about the submitted alarm traps AlarmTrapEntry is the entry conceptual row in the alarmTrapTable The unique sequence number of this alarm trap Date and time when event occured local time including timezone if supported by controller The type of alarm change One of 1 activated 2 deactivated The severity of the alarm One of 3 warning O1 lowest level of alarm severity 4 minor A3 4 5 major A2 6 critical A1 highest level of alarm severity NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Note En alarmDescription alarmType 5 4 2 Access M800D through NMS Chapter 5 Use Of Mo
61. module detects that LVD mode Voltage g S a 3 voltage the battery voltage is lower than the setting value of Load LVD voltage the LVD1 voltage 44 0V monitoring module disconnects the load LVD contactor When the monitoring 40V to 60V y 5 LVD2 voltage 43 2V module detects that the battery voltage is lower than the setting value of Battery 300 protection voltage the monitoring module disconnects the battery protection LVD1 time minutes contactor 3 to 1 000 o iif selecting the According lo time when the battery discharging time reaches the inutos 500 setting value of Load LVD time the monitoring module disconnects the LVD2 time power off contactor When the battery discharging time reaches the setting value minutes of Battery protection time the monitoring module disconnects the battery protection contactor NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Charge setting Chapter 6 Use Of Monitoring Module M501D The setting interface is divided into five screens as shown in the following Float Boost Limit Over 53 5V 56 4V 0 100010 0 300C10 w Constant Boost a Curr 0 010C10 Duration Start Boost Automatic Y Cyclic Y Curr 0 060C10 Capacity 80 Cyclic Boost Interval 2400h Duration 7200min 180min Automatic Boost a 97 Use Y or A to select one page or one of the parameters
62. no AC sampling board in the power system the LCD will display the max and min AC input voltages of all rectifiers Rect AC Volt A Max 230V Min 220V BC prompt and temperature information page System Power A Bat Temp A 23 25 C Cyc BC After Amb Temp 55h y 5 C y If the monitoring module bans BC and no temperature sensor is configured this page will not be displayed The first line of the information page displays the BC prompts which will be different with different systems including 1 Prompt the time of next Cyclic Boost according to the battery state 2 If BC is going on the Charging will be prompted 3 If BC is disabled this row will be empty The 2 and 3 rows of the page are the temperature information detected by the temperature sensor The display will vary with different parameter settings see 4 7 for parameter setting If the temperature sensor is not connected or is faulty system will prompt invalid Meanwhile the 4 row will display Check Temp Sensor NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 18 Chapter 4 Use Of Monitoring Module M500D 4 4 Querying Rectifier Status 4 5 4 5 1 The rectifier information includes the rectifier serial No voltage current current limit mains situation rectifier power limit and temperature power limit 1 At any page of the system information press ENT to enter the main menu
63. no key pressing operation on the monitoring module two minutes later the monitoring module will automatically pop up the active alarm screen on the LCD If there exist multiple alarms in the system the viewing steps are as follows 1 At any system information page press ENT to enter the main menu 2 Use A or Y to select the Status submenu in the main menu and press ENT to confirm STATUS gt Rectifiers Active Alarm Alarm History 3 Use the A or Y key to select the active alarm submenu in the submenu screen and press the ENT screen to confirm and run the active alarm information screen Press A or Y to select the Active Alarm as shown in the above figure and press ENT to confirm 1 If there is no active alarm Active Alarm None will be displayed Active Alarm NONE 2 If there is active alarm the screen will display the following information 1 Alarm Active Alarm SPD Fault 100 040501 02 40 20 040501 19 56 04 On the active alarm information menu the display contents include the alarm sequence number alarm level alarm name and time year month day hour minute and second The display sequence will follow the sequence of the occurring time of the alarms The latest alarm will be displayed as the first one Use A or Y to view all active alarms NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module
64. operator If any defect is found in this equipment inform the personnel responsible for the contract If repairing is needed please fill in the FAILURE REPORT and send the report together with the defective unit to the repairing center for fault analysis NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 14 4 1 4 2 Chapter 4 Use Of Monitoring Module M500D Chapter 4 Use Of Monitoring Module M500D This chapter introduces the front panel and functional keys briefly and expounds screen contents access method system controlling information querying and parameter setting After the monitoring module is powered on the language selection screen will pop up and the monitoring module is initialized The default language is Chinese After the initialization the first system information page will appear Front Panel There are backlit LCD display functional keypad indicators and positioning pin on the front panel of M500D monitoring module as shown in the following figure Run indicator Alarm indicator EMERSON 3 Critical alarm indicator N _ Y LCD NE Esi 4 TA TE Tent Functional keys M500D Handle Figure 4 1 Front panel of
65. parameter setting 6 1 Front Panel There are backlit LCD display functional keypad indicators and positioning pin on the front panel of M501D monitoring module as shown in the following figure Run indicator Alarm indicator EMERSON 13 Critical alarm indicator LCD esc lt JE Ty JE Tent Functional keys s M501D Handle Figure 6 1 Front panel of M501D monitoring module Description of the indicators on the front panel is in the following table Table 6 1 Monitoring module indicator description Normal state Fault state Run green No operation power supply Alarm yellow There are observation alarms Critical alarm red There are major or critical alarm M501D monitoring module uses a 128 64 LCD a keypad with six keys The interface language is Chinese English Spanish Portuguese Italian and French optional The front panel is easy to remove and replace Table 6 2 Description of monitoring module keypad Return to the upper level menu Enter the main menu or confirm the menu operation Shift among parallel menus For a character string these 2 keys can be used to shift among different options Change values at a value setting interface For a character string the
66. parameters NetSure 501 A50 This parameter has been set according to the actual situation 48V 30A SET NONE NetSure upon delivery and needs not to be changed However when a 701 A51 PS48300 3A 3200 new monitoring module is used its System Type should be set System 48V 50A 300 NONE NetSure according to the actual situation After this parameter is changed type 701 A51 the monitoring module will restart automatically and other PS48300 3A 3200 X2 parameters of the monitoring module will be changed to the 48V 50A SET NONE NetSure defaults of the corresponding system type You should change 501 AAO 48V 30A 300 NONE some parameters according to the actual situation a Modify the User level engineer level The password has 0 6 digits with or space being the end password administrator level flag level password 6 The format of system type is defined as follows 48V 25A 300 MAN AC input switchover mode option AUTO MAN System diverter coefficient option 100 300 500 Module nominal output current option 25A 30A 50A Module nominal output voltage option 48V 24V Note If the system type is set incorrectly it may result in inaccurate test of parameter value or invisible failures NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 7 1 Chapter 7 Alarm Handling 105 Chapter 7 Alarm Handling This chapter describes the handling of alarms as
67. rectifiers as an example the replacement procedures are as follows 1 Use a cross screwdriver to remove the 3 screws from the fixing holes and pull out the front panel as shown in Figure 6 2 2 Unplug the power cable of the fan and remove the fan 3 Install a new fan 4 Plug the fan power cable 5 Put the front panel back and fasten it with the 3 screws Fixing screw of the fan Fan Front panel Fixing screw of the panel Figure 7 2 Disassembling the front panel Replacing rectifier Except replacing the fan it is recommended not to repair any other part of the module When faulty the module should be replaced not repaired See the following procedures to replace the rectifier 1 Take a new rectifier and check it for any damage from transport 2 Loosen the fixing screw of the handle of the R48 1800 rectifier with a Phillips screwdriver Pull out the faulty rectifier from the rack by grabbing its handle Be careful with the rectifier just pulled out from the system as it could be very hot due to long term operation Do not let it slip away and get damaged 3 By holding the rectifier handle push the new rectifier into the slot just vacated and make sure the connection is good After a brief delay the rectifier run indicator will turn on and the fan will start running 4 Check whether the new rectifier works normally You should make sure that 1 The monitoring module recognizes the new rectifier 2 T
68. ser Battery Group 4 Lowvoltage limit 40 0 V set DC Distribution j Battery Fuse Group 5 Over vol restart time 300 s 2007 08 16 15 59 37 Set Epican 6 soft Startup with load time els 2007 08 16 15 59 37 Set AC Group SMDU Group 7 WALK In enabled Disabled 2007 08 16 15 59 37 Disabled 4 Set ALARMS 3 Disabled SETTINGS 8 Redundancy Enabled Disabled Set Ppa seme 9 Pre Currimt for Redund Enb Disabled Disabled v set 10 Min Redundancy 100 ES set 11 Max Redundancy soo set Site map _ _ _ _ _ 12 Switch off Delay 5 Signal name Sample time ES 1 RectifierGroup Rectifier lost 2007 08 16 11 07 50 2 WIN acu system Very Under voltage 2007 08 16 11 07 24 3 pa acusystem Ambient Temperature Sensor Fault 2007 08 16 11 07 14 4 0A AcuUsystem SPD Fault 2007 08 16 11 07 14 SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 A SMDU failure 2007 08 15 14 51 00 2007 08 16 15 59 38 SMDU failure 2007 08 15 14 50 18 X geze Internet Figure 5 8 Rectifier screen 3 The screen shown in Figure 4 8 lists all the values that can be set For example user can select Disabled for the value of Walk in enabled in the box of Set value and then click the button Set to make the setting effective After the setting the walk in function of all t
69. setting value of the Output soft Output soft start Ree 8s to 128s 8s start time time Full speed ad If setting to the Speed regulation status the rectifier will regulate the running speed Fan speed speed ps ulati of the rectifier fan according to the air inlet temperature If setting to the Full speed regulation g status the fan will run at full speed When the rectifier is over voltage the rectifier will automatically power off Power on the rectifier after a delay of setting time and judge whether it is still over voltage Over voltage This delay refers to the setting value of the Over voltage restart time If the rectifier 50s to 300s 300s f i 5 NOS ye restart time is not over voltage in the Over voltage restart time it is considered that the rectifier can work normally If the rectifier is over voltage within that time the rectifier will power off and be locked and cannot power on automatically The rectifier will output the voltage in a specific sequence and interval If it is set to Interval start 0 to 10s Os sta ae A 0 it indicates the voltage is output simultaneously If setting to Yes it indicates that the rectifier will still power on forcibly and output OverVolt Enable Yes No No we k the voltage even if it detects there is AC over voltage 6 7 7 System Settings Users with different password levels will have different system parameter setting
70. than this the CSA of the cable should be increased The MCB capacity should be strictly limited so that it can function properly upon load over current The recommended MCB capacity is 1 5 2 times larger than the load peak capacity The CSA of the system earth cable should be consistent with that of the maximum power distribution cable and no less than 35mm Mechanical Installation For the convenience of maintenance users should maintain a clearance of 800mm at the front of the power supply system Insert the power supply system into the cabinet Install the screws in the four installation holes as shown in Figure 2 1 to Figure 2 4 with a Phillips screwdriver 266 466 el 483 i i Figure 2 1 Installation size of NetSure 501 A50 unit mm NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 6 Chapter 2 Installation Instruction
71. threshold alarm 20 Module The internal temperature of the module is too high Observation N A over temperature higher than 90 C alarm The rectifier voltage is too high higher than er Critical 21 Module fault gt Sooner vo tage mee oe ls limit of the rectifier voltage alarm Module Observation 22 i AC over voltage 295V or under voltage 80V protection alarm The fan has fault and the temperature of th ritical 23 Module fan fault e a as au t ar d the temperature of the Critica 3 rectifier air inlet is high alarm 24 Module limited The AC voltage is low and the internal temperature Observation power or air inlet temperature of the rectifier is high alarm NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 93 ae Default Default Associated No Alarm name Alarm description b i alarm level associated relay setting parameters DC The DC output voltage of the system is lower than Critical 25 i Under voltage alarm under voltage the set value of the under voltage alarm parameter alarm The DC output voltage of the system is lower than Critical 26 Low DC voltage PREEN g A Low voltage alarm the set value of the low voltage alarm parameter alarm The DC output voltage of the system is higher than Critical 27 DC over voltage meee g a 9 Over voltage alarm the set value of th
72. 0 2400 4800 9600 9600 Ensure iat the baud rates al the sending party and the receiving party are consistent When the Call back 14010 3 Set as required If the MODEM is in the extension communication times status it needs to add between the dialed number mode is selected Call back a J and number requried for Callbacking to form a delay If i 19 digits maximally Taa gi e as MODEM number the Callbacking number has no 19 digits end with Setting date al year eye ane yat Set the time according to the current actual time eT s regardless of whether it is a leap year or not Setting time Hour minute second If selecting Yes reset the password Upon completion it will recover to No If operating with the engineer level password theuser Reset the YN N level password and the engineer level password can password be recovered to the default password If the administrator level password is used to conduct resetting operation all passwords shall be recovered to the default ones If the system cannot set normally and cannot restore by power off and reset it can set the Init system to Y Users with System and restore setting values of all parameters to the engineer level or Eset N Y N default ones and then the monitoring module will above password restart But alarm may be generated if it is inconsistent with the actual situation Therefore it needs to reset the parameters after restoring the default
73. 00D regulates the rectifier output voltage according to the setting of Test End Voltage to make the rectifier output voltage be lower than the battery voltage and then the battery starts to discharge If the battery voltage reaches the setting of Test End Voltage or the battery discharging time reaches the setting of Test End Time or the battery capacity reaches the setting of Test End Cap the M800D will stop the battery test and regulate the rectifier output voltage to normal Float Charge Voltage The rectifier then starts to charge the battery and the DC Power System transits to battery auto management mode Meanwhile the M800D will record the battery test start end time battery test voltage and battery remaining capacity in the battery test log The user can query the test log from the M800D through MC During battery test if the DC Power System has a fault the M800D will stop the battery test automatically 2 Planned Test Enabled Planned Test means the M800D starts the battery test in a specific schedule Table 5 8 Alarm for battery test Default category LED Alarm number Alarm name OA Y 081 Battery test in progress OA Y 082 Short Test in progress OA Y 083 Test End for Voltage OA Y 072 Discharge Current Imbalance Boost charging parameters Table 5 9 Boost charging parameters Parameter Range Default Step change Automatic Boost Charge Enabled
74. 06 28 NA iystem Outgoing Alarm Blocked Blocked 01 08 01 WEB admin User Successfully ALARMS 7 Battery Group oe of schedule Test per 114 ers WEB admin User Successfully SETIMGS 8 Battery Group Planed Test 02 21 09 2005 0629 em admin u Successfull MAINTENANCE e o 129 7127 En r faccata QUERY 9 lacu System Outgoing Alarm Blocked Normal RYO LCD admin User Successfully 10 ACU System Auto Man State Manual ean WEB admin User Successfully 11 ect 2005 06 29 Tom ectifierGroup WALK In enabled Enabled 18 40 07 WEB admin User Successfully 2005 06 29 18 42 37 e 04 29 Figure 5 46 BE Local intranet Control log Click the button Battery test data and the following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 75 amp Emerson EnergyMaster EMERSON FLEX 48701 Input the last battery test time E Y Query Download Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group gt ALARMS gt SETTINGS gt MAINTENANCE Lf Y gt gt gt QUERY 3 Ambient Temperature Sensor Fault 2007 08 16 16 43 13 4 oA JACU System SPD Fault 2007 08 16 16 43 13 5 e SMDU failure 2007 08 15 14 53 42 6 SMDU 7 SMDU failure 2007 08 15 14 53 01 eS _ _ neu E ae SMDU failure 2007 08 15 14 52
75. 08 16 16 04 43 gt DEVICE EXPLORE 3 Battery Voltage 0 0 v 2007 08 16 16 04 50 4 Battery Capacity 100 0 2007 08 16 16 04 50 Battery Group DC Distribution y Battery Fuse Group All alarm Observation Mi Critical LVD Group m Alarmievel Relative device Signal name Sample time AC Group ae rro SMDU Group RectifierGroup Rectifier lost 2007 08 16 11 07 50 gt ALARMS 2 WWA acu system Very Under voltage 2007 08 16 11 07 24 SETTINGS 3 A acu System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 MAINTENANCE 4 ACU System SPD Fault 2007 08 16 11 07 14 QUERY 5 SMDU 8 SMDU failure 2007 08 15 14 53 42 6 SMDU 7 SMDU failure 2007 08 15 14 53 01 AA OS z SMDU 6 SMDU failure 2007 08 15 14 52 21 Site map SMDU 5 SMDU failure 2007 08 15 14 51 40 E A SMDU 4 SMDU failure 2007 08 15 14 51 00 2007 08 16 16 04 52 EE SMDU 3 SMDU failure 2007 08 15 14 50 18 el EE 8 Internet Figure 5 14 Sampled values of battery 1 Bla The screen shown in Figure 4 14 displays the sampled values of battery 1 In this screen if the user click Control or Setting nothing will be displayed because it is not allowed to control the single battery or set the values of the single battery Click SMDU2Battery2 following screen pops up Emerson EnergyMaster PE e ile Control Settina FLEX 48701 ex Signal name Value Unit Sample time sR Y nt 0 0 4 i Battery Capa
76. 0A Alarm Auto Float w The system information is shown in many pages You can repeatedly press W to view other system information pages in a cycle 4 Press the ESC key at the information root screen and the user can browse the serial number of the module the software version and the operation time of the module Serial No 202311 3920204C000112 SW Rev 1 13 Runtime 140h 5 At any system information page press ENT to enter the MAIN MENU page which contains 3 sub menus Status Maintenance and Settings Main Menu Status Maintenance Settings You can press A or Y repeatedly to select a sub menu and press ENT to enter the sub menu Press ESC to return to the menu of higher level Status Including rectifier information active alarm information and alarm history information 1 Maintenance The maintenance operation can be conducted only when the battery management mode is set to Manual The maintenance includes battery FC BC and test load power off on battery power off on and rectifier voltage trimming current limit switch control and resetting 2 Settings Including the setting of alarm parameter battery parameter AC DC parameter rectifier parameter and system parameter NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 84 6 3 6 3 1 6 3 2 Chapter 6 Use Of Monitoring Module M501D Querying System Status Firs
77. 1 AAO lt 108A Power factor 2 0 99 Rated output DC voltage 48Vdc Output DC voltage 42 3Vdc 57 6Vdc NetSure 701 A51 lt 275A load current lt 200A battery charge current lt 50A NetSure 501 A50 lt 150A load currents 120A battery charge current Maximum output current lt 30A DC output NetSure 501 AAO lt 300A load currents 250A battery charge current lt 50A Voltage set point accuracy lt 1 Efficiency NetSure 701 A51 2 89 NetSure 501 A50 NetSure 501 AAO gt 90 Noise peak peak lt 200Mv 0 20MHz Weighted noise lt 2Mv 300 3400Hz AC input alarm and protection AC input over voltage alarm point Default 280 5Vac cofigurable through monitoring module AC input over voltage alarm recovery point Default 270 5Vac 10Vac lower than the AC input over voltage alarm point AC input under voltage alarm point Default 180 5Vac configurable through monitoring module AC input under voltage alarm recovery point Default 190 5Vac 10Vac higher than the AC input under voltage alarm point AC input over voltage protection point NetSure 501 A50 NetSure 501 AAO 305 5Vac by default cofigurable through monitoring module NetSure 701 A51 295 5Vac by default cofigurable through monitoring module AC input over voltage protection recovery point NetSure 501 A50 NetSure 501 AAO 295 5Vac by default 10Vac lower than the AC input over v
78. 3A 1P 3 x 32A 1P 4 x 10A 1P MCB NetSure 501 AAO BLVD load route 5 x 63A 1P 5 x 32A 1P 8 x 10A 1P MCB NetSure 701 A51 PS48300 3A 3200 BLVD load route 5 x 63A 1P 5 x 32A 1P 8 x 10A 1P MCB NetSure 701 A51 PS48300 3A 3200 X2 BLVD load route 4 x 40A 1P 1 x 10A 1P MCB No LLVD load routes Output routes NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 2 Wiring Diagram 113 Appendix 2 Wiring Diagram Rectifier subrack1 Rear view TATE Ta mi TA fem Ta Ei To 1 PL busbar AC input distribution schemes SPD AC input Scheme 1 for 3P N4PE _ for M501D R e do Rect 1 do Rect 1 Load alarm signal connection T for 3P N PE o of the monitoring backboard _ Back view Techni
79. 4 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 35 56 Battery Group Temperature sensor failure 2007 08 14 11 11 37 Figure 5 29 Time setting screen After changing the time click Setting to validate the new time 5 3 7 Maintenance Click the menu of Maintenance and then click Upload download sub menu to upload or download the files as shown in the figure below Emerson EnergyMaster EMERSON FLEX 48701 Upload Download need to close ACU do you want to close ACU DEVICE EXPLORE Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS 3 gt eile MAINTENANCE Ambient Temperature Sensor Fault 2007 08 16 11 07 14 BH SPD Fault 2007 08 16 11 07 14 7 SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 gt QUERY SMDU failure 2007 08 15 14 50 18 y SMDU failure 2007 08 15 14 49 38 10 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 36 59 11 0A Battery Group Temperature sensor failure 2007 08 14 11 11 37 SELL AN E EA Figure 5 30 Upload download screen 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 64 Chapter 5 Use Of Monitoring Module M800D In maintenance status the user cannot browse th
80. 4 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 A SMDU 4 SMDU failure 2007 08 15 14 51 00 2007 08 16 16 47 40 SMDU 3 SMDU failure 2007 08 15 14 50 18 Figure 5 43 Query history data screen In the screen shown in Figure 4 43 select the device for example select M800D System enter the start time and end time and then click the button Query to query the data during this period Emerson EnergyMaster EMERSON FLEX 48701 Device name All device Y Query type History Y Pren All device DEVICE EXPLORE To Recti Query Download Th h Rectifierl 2 t t The max show recor p ified input proper query parameter Battery Group Index DeviRectifier3 gnal name Value Unit Time DC Distribution ACU SystelRectifierd Signal Alarm 2007 08 16 10 38 03 meet Fuse Group ACU Syste Signal Alarm 2007 08 16 10 55 12 roup inma Aet 5 ES OS 07 AC Group ACU Syste ectifierT Signal Alarm 2007 08 16 ps SMDU Group ACU Systelectifierg Signal Alarm 2007 08 16 16 43 12 gt ALARMS Rectifier9 gt SETTINGS Rectifierl0 gt MAINTENANCE Recien Be Rectifier12 i Rectifier13 Rectifierl4 Rectifier15 Rectifier16 Rectifier17 ifier18 L emei Critical Signal name Sample time is as Rectifier lost 2007 08 16 16 43 48 Rectifier22 Rectifier23 Very Under voltage 2007 08 16 16 43 23 Rectifier24 Ambient Temperature Sensor Fault 2007 08 16 16 43 13 Rect
81. 4 53 01 SMDU failure 2007 08 15 14 52 21 SSMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 SMDU failure 2007 08 15 14 49 38 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 22 21 Temperature sensor failure 2007 08 14 11 11 37 Y Figure 5 23 NMS configuration NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 59 In the screen shown in Figure 4 23 the user can configure the NMS IP authority and trap level The user can also add new NMS modify NMS information and delete the selected NMS through the interface as shown in Figure 4 23 The user can also set the trap level Click the sub menu of ESR Configure following screen pops up Emerson EnergyMaster amp EMERSON B FLEX 48701 Protocol Type DEVICE EXPLORE Protocol Media TCPIP v TCP IP port number 2000 v Callback in use Report in use Battery Group DC Distribution CCID 1 Range from 1 255 Battery Fuse Group SOCID i LVD Group A A from 1 20479 AC Group Max alarm report attempts 3 Range from 0 255 SMDU Group f gt ALARMS GOLN o Game 5 s Range from 0 600 z Main report phone number SSS SETTINGS Second report phone number Callback phone number sx Main report IP R at Second report IP gt All alarm Obs TENANCE Ambient Tempe
82. 6 LVR2 voltage 52 5 V E SMDU Group 7 Lvo2 Enabled Disabled Disabled x set 8 LVD2 reconnect delay 2 min Set 9 Over Current Point Loader 2000 0 A set ALARMS Signal name SETTINGS Sample time MAINTENANCE RectifierGroup Rectifier lost 2007 08 16 11 07 50 1 gt QUERY 2 ACU System Very Under voltage 2007 08 16 11 07 24 ba acUsystem Ambient Temperature Sensor Fault 2007 08 16 11 07 14 rs ACU System SPD Fault 2007 08 16 11 07 14 Site map 5 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 MESA 4 Figure 5 18 LVD disable enable 5 3 5 Alarms In any screen click the icon y located in the middle bottom part of the screen to pop up the alarm screen as shown below NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 56 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster EMERSON Control Settina FLEX 48701 Index Signal name Value Unit Sample time 0 0lv 163 r Current DEVICE EXPLORE 2 Current 0 0 4 E 3 Current 0 0 Battery Group r4 Current 00A DC Distribution Battery Fuse Group LVD Group NE AC Group l
83. 8 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SSMDU failure 2007 08 15 14 50 18 SMDU 4 2007 08 16 16 49 21 SMDU 3 Figure 5 45 Query log screen In the screen shown in Figure 4 45 select query type first enter the start time and end time for example from 00 00 00 June 21 2005 to 23 59 59 June 29 2005 then the log recorded from 00 00 00 June 21 2005 to 23 59 59 June 29 2005 will be displayed as shown in Figure 4 46 Emerson EnergyMaster E D gt DEVICE EXPLORE Query type Control log RectifierGroup From 2005 06 21 00 00 00 o To 2005 06 28 23 59 59 Quer Download DC Distribution 5 Saal a 7 l ontro ender ontrol E a Fuse Group Equip name Signal name ica Unit Control time Sender name type PA pour 2005 06 28 EEM SOCTPE RSOC AC Group 1 ACU System Under voltage 1 Level 45 60 Y 00 00 11 Protocol HLMS Successfully Diesel Group 2005 06 28 EEM SOCTPE RSOC 2 ACU System Under voltage 2 Level 42 00 00 00 11 Protec HLMS Successfully 2005 06 28 EEM SOCTPE RSOC 3 ACU System Over voltage Level 58 50Y 00 00 11 Protocol HLMS Successfully High Ambient Temperature 2005 06 28 EEM SOCTPE RSOC 4 ACU System I imi 65 00 deg C 00 00 11 Protocol HLMS Successfully Low Ambient Temperature 2005 06 28 EEM SOCTPE RSOC 5 ACU System Limit 10 00 degC 00 00 11 Protocol HLMS Successfully 6 lacus 7 2005
84. 8 Parameter and alarm for rectifier cycling Parameter Range Default Step change Cycle Period 1 to 500 Days 30 1 Cycle Activation Time 0 to 23 o clock 3 o clock 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 5 5 4 Diesel Management Parameters Parameter and alarm for diesel test Chapter 5 Use Of Monitoring Module M800D 81 Table 5 19 Parameter and alarm for diesel test Parameter Range Default Step change Schedule Diesel Test Enabled Yes No No N A Jan 1 0 O clock Apr 1 0 O clock Date of Schedule Diesel Test Jul 1 0 O clock Oct 1 0 O clock Default category LED Alarm Number Alarm name OA Y Diesel test in progress Manual or cyclic CA RED Diesel Generator Fault 5 5 5 Power Split Parameters Table 5 20 Parameters of power split Parameter Range Default Step change Power Split Mode Master Slave Master s Current Limit Set Value 10 to 90 60 1 Delta Voltage 0 1 to2V 0 5 0 1 Proportional Coefficient 0 to 10 2 0 1 Integral Time 1 to 2000s 20 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 82 Chapter 6 Use Of Monitoring Module M501D Chapter 6 Use Of Monitoring Module M501D This chapter introduces the front panel and functional keys briefly and expounds screen contents access method system controlling information querying and
85. 83 W x 380 D x 311 H 25kg not including rectifiers and monitoring module 1 3 Optional parts Temperature sensor and connected cables remote monitoring unit battery rack Features The rectifier uses the active Power Factor Compensation PFC technology raising the power factor to 0 99 Wide AC input voltage range 85V 290V NetSure 701 A51 or 85Vac 300Vac NetSure 501 A50 amp NetSure 501 AAO The rectifier uses soft switching technology raising the system efficiency to 89 R48 1800 90 R48 3200 Ultra low radiation With advanced EMC design the rectifier meets international standards such as CE and NEBS Both the conducted and radiated interference reach Class B The rectifier safety design complies with UL CE and NEBS standards High power density Rectifiers are hot pluggable It takes less than 1min to replace a rectifier Two over voltage protection methods are optional hardware protection and software protection The latter one also has two optional modes lock out at the first over voltage and lock out at the second over voltage Perfect battery management The management functions include the LLVD optional BLVD temperature compensation auto voltage regulation stepless current limiting battery capacity calculation and on line battery test etc Up to 200 pieces of historical alarm records and 10 sets of battery test data records Network design Providing multiple communication ports such a
86. A or Y to scroll through the screens Rated Over Volt gt 59 50 V Rated Low Volt 40 5 V Method of configuring the parameters With the Rect Over Volt configuring as an example press A or Y to move the cursor to the value of Rect Over Volt 59 50V and press ENT to highlight the row Press lt or gt to change the value The change step of the value is configurable After modifying the parameter press ENT to validate the modification Method of configuring the status WALKIn Enable lt gt Enabled Redundancy Enb Enabled v With WALKIn Enable as an example press A or Y to move the cursor to the value of WALKIn Enable and press ENT to highlight the row Press lt or gt to change the value from Enable to Disable or from Disable to Enable If the equipment category has more than one piece of equipment the detailed settable parameters of the equipment are displayed in two level menus Press lt or to view the information of other equipment that belongs to the equipment category Alarm parameter setting The alarm parameter setting screen is shown in the following figure Parameter Set gt SMIO 8 Alarm Param System Param w In the preceding screen press A or Y to move the cursor to the menu of Alarm Param and press ENT the following screen pops up Alarm Param Alarm Level Alarm Control In the preceding screen press A or Y to move the
87. AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 2 Installation Instruction e thoje Network port qo interface SSE Eppes D Per 5 7 S6415X2 user de s baa connector board o Q tt ho thole 100 0 Monitoring module AA Figure 2 6 User connector board position The interfaces of the signal transfer board are shown in Figure 2 7 The functions of the interfaces are shown in Table 2 3 OnE O E oe wa ol qe z Om Om
88. AO 48V 30A 300 NONE The monitoring module should display the correct AC voltage The monitoring module should be able to display the DC voltage The difference between the displayed voltage and that measured at the bus bar should be less than 1 The monitoring module should display the battery current The difference between the displayed and measured battery current should be less than 1 Check the number of the rectifier through the monitoring module The number should be consistent with the actual number NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 3 Installation Testing 13 OK Comments Check the voltage current current limiting point of rectifiers through the monitoring module They should agree with the actual parameters For the system configured with temperature sensor the monitoring module should be able to display the battery ambient temperature Hold the probe of the temperature sensor with hand and watch the monitoring module which should diplay the change of temperature 3 4 Final Steps O A Comments Disconnect all test equipment from the system and make sure that materials irrelevant to the equipment have been all removed Restore the equipment to its original condition and close the cabinet door Check and handover the equipment that the user has purchased Note down all the operations taken including time of the operation and name of the
89. All alarm Observation Maior Critical Signal name Sample time 2007 08 16 11 07 50 47 amp EMERSON Very Under voltage 2007 08 16 11 07 24 2 MN cu system ACU System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 d oa fsbu s CU System SPD Fault 2007 08 16 11 07 14 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SSMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU 3 SMDU failure 2007 08 15 14 50 18 E A II E CN CC TE SE AS Figure 5 5 M800D homepage Internet In the Homepage screen the left part displays the user name the login time the menus of Device explore Alarms Settings Maintenance 5 3 4 Device Explore os Query data and Site map The alarm bar is displayed at the bottom of the screen As shown in Figure 4 5 the menu Device explore has the sub menus of equipment groups such as RectifierGroup BatteryGroup DC Distribution Battery Fuse Group AC Group Diesel Group Main Switch SM IO and LVD Group User can check the sample data of the equipment set the equipment parameter and control the equipment by operating these sub menus Every piece of equipment has 3 signals that are data acquisition signals sampled values cont
90. Batt Shunt2 Yes Shunt coeff 500A 75mV 4 The value description of the basic battery parameters is listed below Table 4 6 Basic battery parameters descriptions Parameter Range Defaults Value description In normal situation it should be in the Auto mode which enables the monitoring module manage the whole power system automatically including Automatic FC BC switchover LLVD and BLVC In the manual Mgmt Mode Management Auto M nual Auto mode you can do operations like BC FC test and battery on off as well mode as enabling automatic battery BC time protection and capacity calculation Upon the system DC under voltage alarm system can automatically switch to the Auto mode lest wrong manual operation should damage the system Batt String number Gi 2 You should set this parameter according to the actual battery configuration of battery strings If Batt Shunt is set as Y there should be batteries actually configured Rated AH rated Th ity of th i hunt l 50 5000Ah 300Ah e total capacity of the battery strings connected to one battery s unt l capacity You should set this parameter according to the actual battery configuration BTT Name 1 11 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 26 Chapter 4 Use Of Monitoring Module M500D Parameter Range Defaults Value description
91. Change User Operator e Th ama Admin e password can be 6 digits long at most Con Alarm 3min 10min 1h Contstant The period that an alarm sound will last Voice 4h constant Administrator Serial The production serial No of the monitoring module This parameter cannot be changed SW Ver The software version No of the monitoring module This parameter cannot be changed Reflecting the jumper status of a hardware switch within the monitoring module If this parameter Set Enable is set to N you are not allowed to use the jumper nor change any parameter except the battery management mode The maintenance over the monitoring module will not be affected NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 34 4 7 11 Chapter 4 Use Of Monitoring Module M500D 5 The model description is shown below 48V 30A 300 MAN LS AC input switchover AUTO MAN NONE System shunt coefficient 100 300 500 SET Rectifier rated output current 15A 30A 50A 75A 100A Rectifier rated output voltage 48V 24V Note Monitoring module M500D can monitor multiple power systems made by Emerson If the system type is not set correctly unpredictable faults may occur Alarm Settings 1 The first page of the setting interface is show below ALARM SETTINGS Alarm Type Alarm Mode Alarm Control There are 3 submenus Use W or A to select o
92. E SMDU Group SETTINGS MAINTENANCE QUERY lt All alarm Alarm level Relative device Signal name Sample time is RectifierGroup Rectifier lost 2007 08 16 11 07 50 2 MIA acu System Very Under voltage 2007 08 16 11 07 24 A Systern Ambient Temperature Sensor Fault 2007 08 16 11 07 14 ei System SPD Fault 2007 08 16 11 07 14 ns 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 o oA smDUs SMDU failure 2007 08 15 14 51 00 2007 08 16 16 18 39 10 SMDU 3 SMDU failure 2007 08 15 14 50 18 SCS IO SCI DC ESC CT CCC IC ER l TE Internet Figure 5 19 Ai screen The screen shown in Figure 4 19 shows all the alarms Click the button Observation all the observation alarms will be displayed Emerson EnergyMaster paren i Control Settina FLEX 487 Signal name Sample time A rm Cur oader2 Current 0 0 4 E DEVICE EXPLORE Current 0 0 4 r4 Current O OIA Battery Group 0 DC Distribution O r Fuse off iz d Battery Fuse Group de LVD Group AC Group SMDU Group SETTINGS paul a gt MAINTENANCE l QUERY Site map is Eke U System Ambient Temperature Se
93. ENT to enter main menu Main Menu The main menu is the highest level menu The setting controlling information querying rectifier information and alarm information of all the parameters are carried out by the submenus of the main menu The main menu is shown in the following figure Main Menu Running Info Maintain Parameter Set 1 Press ENT in any screen of the main screen to enter main menu 2 Press ESC in the submenu to return to the main screen step by step Running Information 1 Introduction to running info In the screen of Main Menu press A or Y to select the sub menu of Running Info and press ENT to activate the menu to show the screen of Running Info NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 38 Chapter 5 Use Of Monitoring Module M800D Running Info lt gt M800D System Rect Group Rectifier The running information includes Equipments information Active alarm and History alarm The equipment information displayed in the screen of Running Info is configurable Press A or W to view more running information Running Info Running Info gt Batt Group gt SMIO 8 Battery Active Alarm SM Batt4806 w History Alarm w Press A or Y to select the sub menus in the screen of Running Info and press ENT to activate the menu For example move the cursor to the sub menu of History Alarm and press ENT to view the histo
94. IN S z q Run indicator N 4 qr Protection indicator U qr Fault indicator E Run indicator L Protection indicator o a a R48 3200 ___ _Fault indicator R48 1800 a Figure 7 1 Rectifier indicator The indicators are shown in Figure 6 2 Table 7 2 Indicator fault description Monitoring module Rect Protect Symptom Causes Handling method alarms Run indicator No alarm No input output voltage Make sure there is input output voltage off Assistant power source of the rectifier fails Replace the recitifier Run indi r The monitoing module performs operations ae ingicaro No alarm e monito g ii Poa No actions need to be taken blinks upon the rectifier Protection Rect Protect AC input voltage abnormal Make sure the AC input voltage is normal indicator on Fan blocked Remove the object that blocks the fan Ventilation path blocked at the inlet or vent Remove the object at the inlet or vent Ambient temperature too high or the inlet too Decrease the ambient temperature or remove close to a heat source the heat source Check whether the rectifier communication is normal If not check whether the Load share Alarm Current sharing im
95. M500D monitoring module Description of the indicators on the front panel is in the following table Table 4 1 Monitoring module indicator description Normal state Fault state Run green No operation power supply Alarm yellow There are observation alarms Critical alarm red There are major or critical alarm M500D monitoring module uses a 128 x 64 LCD a keypad with 6 keys The interface language is Chinese English optional Table 4 2 Description of monitoring module keypad Return to the upper level menu Enter the main menu or confirm the menu operation Shift among parallel menus For a character string these 2 keys can be used to shift among different options and gt Change values at a value setting interface For a character string these 2 keys can move the cursor left or right Power On Order After the system is powered on for the first time you should set the system type according to the actual configuration The monitoring module will restart after the system type is changed In that case you should re configure those parameters whose default values are inconsistent with the actual situation Only after that can the monitoring module operate normally After configuring the system parameters you can carry out various operations directly without resetting the parameter values As for those important parameters related to battery management such as BLVD you should be fully aware of their influence upon th
96. M501D 87 When querying the alarm of the rectifier the user can press to display the last 10 digits of the serial number of the rectifier and then the running indicator of the corresponding rectifier will flash Rect ID gt 02030405 In the case of battery test alarm or maintenance time alarm press to display the prompt information Press ENT Clear ESC Key Quit On the prompt screen press ENT to confirm and clear the alarm 4 At any active alarm information page press ESC repeatedly and you can return to the higher level menus 6 5 2 Querying Alarm History 1 At any system information page press ENT to enter the main menu Press A or Y to select the Status submenu and press ENT to confirm STATUS Rectifiers Active Alarm Alarm History 2 Use A or Y to select the Alarm History as shown in the above figure and press ENT to confirm If there is no historical alarm the prompt will be Alarm History None Alarm History NONE 3 The historical alarms of the monitoring module are stored in cyclic order Up to 200 alarms will be recorded Above that the earliest alarm will be cleared automatically 1 Alarm 2 Alarm SPD Fault Input MCB Trip 040501 02 40 20 040501 00 00 35 040501 19 56 04 v 040501 02 32 21 w At the monitoring module the displayed historical alarm information includes alarm serial No alarm name and alarm start end time year month day hour minute secona
97. M800D and the homepage screen as shown in Figure 4 4 pops up 5 3 3 Homepage Introduction The homepage screen is shown in Figure 4 5 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Emerson EnergyMaster FLEX 48701 Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS MAINTENANCE QUERY Site map 2007 08 16 15 55 20 Sample Control Settina Chapter 5 Use Of Monitoring Module M800D Index Signal name Value ICI Sample time System Voltage 0 0 v 2007 08 16 15 55 16 2 System Load OA 2007 08 16 15 55 16 3 Current power peak limit 20kW 2007 08 16 15 55 11 4 Hardware Write protect Switch No Protected 2007 08 16 11 07 11 5 Ambient Temperature 273 deg C 2007 08 16 15 55 20 6 SPD Status Fault 2007 08 16 15 55 20 7 Da Off 2007 08 16 15 55 20 8 DI3 Off 2007 08 16 15 55 20 9 DI4 Off 2007 08 16 15 55 20 10 DI5 Off 2007 08 16 15 55 20 11 DI6 Of 2007 08 16 15 55 20 12 DI7 Off 2007 08 16 15 55 20 13 PIS off 2007 08 16 15 55 20 14 Power rate level Low 2007 08 16 15 55 11 15 Total Run Time 136 0 h 2007 08 16 15 55 20 16 Maintenance Time Run 6 8s h 2007 08 16 15 55 18 System Status Sianal 2007 08 16 15 55 20 EE MESA om 7 10 9 joa vu Relative device RectifierGroup Alarm level Rectifier lost
98. NONE There will be a prompt when resetting the system Notice All Param lost ENT Continue ESC Quit 3 For administrator level password by default 640275 you can see the following pages besides all those above as shown below Change Password Serial Code1 12345689101112 Con Alarm Voice SW Ver 1 0 1Hour Set Enable Y You can change the value of the parameter Change Password and press ENT to confirm Enter New PWD 000000 Input Again NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 33 Use Y or A to change the number and lt or gt to move the cursor left or right Press ENT to confirm You should input the same number twice to complete the setting 4 The value description of the parameters is listed below Table 4 14 System setting parameter description Parameter Range Default Value description Chinese English i Text 9 Chinese Set according to your need and Spanish Th f h h Add ess 1 254 4 e daa O power systems t at are at the same monitored office should be different MODEM Through modem and based on the Telecom protocol MODEM EEM M Through modem and based on the EES CommMode RS 232 EEM M RS 232 S23 protocol RS 232 Through a transparent serial port and ba
99. NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Version V1 0 Revision date June 13 2008 BOM 31011680 Emerson Network Power provides customers with technical support Users may contact the nearest Emerson local sales office or service center Copyright 2008 by Emerson Network Power Co Lid All rights reserved The contents in this document are subject to change without notice Emerson Network Power Co Ltd Address No 1 Kefa Rd Science amp Industry Park Nanshan District 518057 Shenzhen China Homepage www emersonnetworkpower com cn E mail support emersonnetwork com cn Safety Precautions To reduce the chance of accident please read the safety precautions very carefully before operation The Caution Notice Warning Danger in this book do not represent all the safety points to be observed and are only supplement to various safety points Therefore the installation and operation personnel must be strictly trained and master the correct operations and all the safety points before actual operation When operating Emerson products the safety rules in the industry the general safety points and special safety instructions specified in this book must be strictly observed Electrical Safety Hazardous voltage A Danger Some components of the power system carry hazardous voltage in operation Direct contact or indirect contact through moist objects with the
100. Of Monitoring Module M800D Emerson EnergyMaster E FLEX 48701 index Sgal name Na ee ee ee Hi TC NP a E MICH eer IEA IES NETOS E cal E ACI E AU 00 O E al 7 PIO ey Cd ea AC IT A IS A e E o Cane cons a oo EE AT O iC a HS E rrr E a A en A O a TE MON fet Tet AA A O a TE LD cr paca MIN TT PTAS a DN O ad E zj gt QUERY a 2 2 Sagnal name Sample time Site ma 5 Rectifertost aoas ee Under voltage 4 bent Temperatura Sensor Faut 2007 08 15 14 49 33 2007 08 15 14 48 57 Temperature sensor failure 2007 08 14 11 11 37 2007 08 27 09 36 14 PET da atrae Rio e Figure 5 13 Setting values of battery group In the screen shown in Figure 4 13 the user can set the battery parameters For example in the Set value box of Very High Temperature Limit the user can set the temperature limit from 36 00 to 38 00 and click the button set to make the setting become effective Click the submenu of Battery1 the following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 53 Emerson EnergyMaster 4 EMERSON Sample Control Setti FLEX 48701 Index Signal name Value Unit Sample time 1 Battery Current 0 O A 2007 08 16 16 04 50 2 Battery Capacity Ah 1000 Ah 2007
101. Only is the maintenance personnel allowed to perform setting otherwise incorrect setting may cause system abnormality It is better to use the 6 digit password recommended 5 The value of system parameter is described in the table below Table 6 17 Description of system parameters Default Parameter Setting range value Value description English Spanish Portuguese Text i German Italian French English Set according to customer need The addresses of power systems that are at the same 1 to 254 1 Loca address ne monitored office should be different NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 104 Chapter 6 Use Of Monitoring Module M501D Parameter Setting range perau Value description value The value MODEM indicates communication through nszaz YON MODEM YON A e MODEM EEM MODEM EEM an ee mene ia eana aT R RS232 EEM RS232 EEM R a E RS232 The value YDN refers to China Telcom protocol Communication Mode MODEM SOC MODEM SOC e R RS232 SOC RS232 SOC R YDN EEM refers to communication under the SEV MODEM S T MODEM S T R protocol with no alarmi reported The value SOC e RS232 S T RS232 S T R refers to communicaiton under the SOC protocol R i indicates reporting alarm S T indicates that TPE acts as the communication protocol Baud rate bps 120
102. T Level 4 EN IEC 61000 4 4 Immunity to ESD Level 3 EN IEC 61000 4 2 Immunity to surges Level 4 EN IEC 61000 4 5 Immunity to radiation Level 2 EN IEC 61000 4 3 Immunity to conduction Level 2 EN IEC 61000 4 6 The AC input side can withstand five times of simulated lightning voltage of 5Kv at 10 700us for the positive and negative polarities Lightning respectively It can withstand five times of simulated lightning surge current of 20Ka at 8 20us for the positive and negative polarities respectively The test interval is not smaller than 1 minute It can also withstand one event of simulated lightning surge current of 40Ka at 8 20us Safety regulation 1EC60950 1 2001 Acoustic noise lt 55 db A When the ambient temperature is lower than25 C Insulation resistance At temperature of 15 C 35 C and relative humidity not bigger than 90 RH apply a test voltage of 500Vdc The insulation resistances between AC circuit and earth DC circuit and earth and AC and DC circuits are all not less than 10MQ Remove the SPD monitoring module and rectifiers from the system before the test AC Power distribution DC power distribution NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Grounding terminal Positive busbar Battery MCB One M10 bolt customer requirement Others AC circuit to earth 50Hz 2 500Vac or 3535Vdc
103. U failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 d SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 SMDU failure 2007 08 15 14 49 38 SMDU failure 2007 08 15 14 48 57 Battery Group Temperature sensor failure 2007 08 14 11 11 37 7 Internet Figure 5 21 Query history alarm The information of the history alarm includes the signal name alarm level alarm start time and alarm end time The lower part of the screen displays the active alarm 5 3 6 Settings Click the icon in the left of SETTINGS and then click the sub menu of Network configuration following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 58 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster amp EMERSON FLEX 48701 ACU network parameter setting E 142 100 6 45 DEVICE EXPLORE ACU IP 142 100 6 45 Battery Group Gateway 142 100 61 DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS i All alarm Observation Maior Critical AENA N CE Jacu System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 QUERY SPD Fault 2007 08 16 11 07 14 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 Site map SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 7 98 __
104. alarm 1to 100A 10A If the battery have not discharged within the ShortTest Cycle the F 24 to 8760 720 h monitoring module will start a short test whose operation time is set by the ASt toSt peri d hours o nouns parameter ShortTest Duration By the end of the test if the difference in 4 the discharge currents of batteries is bigger than the Alarm Current the Fast test time o En 5 minutes battery discharge imbalance alarm will be raised This alarm will minutes e ek ec fe automatically end after 5min of delay Also you can end it by confirming it Constant current Yes No The stable test is conducted with constant battery current whose value is test enabled i set through the parameter StableTest Current If the parameter Constant current 0 to 9999A 9999A StableTest Enable isso to Y and the test will be started once the battery test current satisfies the test condition Temperature compensation coefficient setting The root screen of the setting interface is as follows If the Temperature1 or Temperature is set to Battery Temp you need to set the following parameters Center Temp 25 C Temp Comp Coeff Batt Temp Alarm e Bat Over 50 C Bat High 50 C Bat Low 0 C 70mV C Str v When conducting setting use Y or A key to select one of screens or parameter items to be set and lt or gt to select the parameter value Then press ENT key to confirm and save Th
105. all rectifiers Rect Not ie 29 Rectifier does not communicate with M500D Major 3 Respond 30 Rect AC Fail AC input voltage of this rectifier lower than 80V Major 3 This rectifier output voltage was higher than the 31 Rect HVSD Major 3 rectfier HVSD setting and has shut down j Serious load sharing alarm the output current of 32 Rect Failure the rectifier is lower than 1A and the average load Critical 3 is greater than 6A Or rectifier s ID repetition AC over voltage or Rectifier PFC failure or current i temperature or AC Low voltage 33 Rect Protect innbalanige or vere Ps aa a g Observation 3 or AC phase loss or position pin failure or Inner communication fault 34 Rect Fan Fails Rectifier fan fails Major 3 Rectifier AC input voltage is low and the rectifier 35 Rect Derated AICA inp i A Observation 3 internal temperature is high and high load Temperature higher or Lower than the setting of E 36 Temp Alarm Observation None p Temp inluding Ambient temp and battery Temp Battery temperature higher than the setting of Over temperature 37 Batt Over Temp E y p 9 9 Major None iP High Temp inluding temperature sensor fault alarm point Digital 1 Alarm name can be defined by users Whether the 38 Best 6 alarm is triggered at high voltage level or low No alarm 8 9 voltage level can be configured Al fined by users Whether the Digital7 LVD1 ee ene er 39 Mar alarm is triggered at high voltage level o
106. an the following control on the rectifier be conducted The operations that function on all the modules include RectVolt The maximal range for the setting of the item actually determined by the module operation parameter is 42V to 58V which can be used to improve the current sharing effect between the rectifiers Please note that the module voltage adjustment value cannot exceed the over voltage alarm threshold of the module HVSD or be lower than the disconnection threshold LVD1 Otherwise the control is invalid RectLimit The setting range is 10 121 The control operations for the single rectifier include Con which comprises DC on DC off AC on AC off reset The operation method is as follows 1 press A or Y to select the module parameter item use the lt or gt key to NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 90 Chapter 6 Use Of Monitoring Module M501D change the sequence number of the module and then press ENT key to confirm The bottom line of the display screen will display the last 10 digits of the serial number of the module 2 Use the A or Y key to shift the cursor to the control operation option block and select the suitable value with the lt or gt key If the rectifier is blocked upon over voltage the user can reset the rectifier with reset operation 6 There is confirmation information prompt for the control command
107. and or gt to select the parameter value Press ENT to confirm and save GJ Note Normally the user shall retain the default value of the parameter instead of performing additional setting The value of charging management parameters is described in the following table Table 6 11 Description of charging management parameters time Parameter geting perau Value description range value Float voltage 53 5V In the oat charging status all rectifiers output voltage The setting value of Boost 42V to 58V according to the setting value of Float charging voltage charging voltage must be Boost voltage 56 4V In the boost charging status all rectifiers output voltage higher than that of Float according to the setting value of Boost charging voltage charging voltage The monitoring module detects the charging current of the battery If the charging 0 1 to current is higher than the setting value of the current limit point the monitoring module Current limit 0 250 0 1045 will send current limit control command to limit the charging current of the battery 9 Cio indicates nominal capacity of battery and is usually set to 10 20 of the capacity of single pack of batteries 0 3C to The monitoring detects the charging current of the battery If the charging current is Over current 1 0C io 0 300C higher than the setting value of the over current point the
108. apacity prediction Parameter Range Default Step change Battery Type No 1 to 10 1 1 Rated Capacity 50 to 5000 Ah 1000 10 Over Current 0 3 to 1 0 Cio 0 30 Cio 0 01 Current Limit 0 10 to 0 25 Cio 0 10 Cio 0 01 Capacity Coefficient 10 to 100 96 1 Discharge Curve 10 of discharge time for 0 1 to 1 0 Cio discharge current 5 5 3 Energy Management Parameters Parameters of lower consumption during high cost hours Table 5 15 Parameter and alarm for lower consumption during high cost hours Parameter Range Default Step change L i ing high ower consumption during hig Yes No No N A cost hours enabled Prohibit Battery Charge Enabled Yes No No N A Default category LED Alarm Number Alarm name OA Y Battery Charge Prohibited Alarm Parameter and alarm for maximum power consumption Table 5 16 Parameter and alarm for maximum power consumption Parameter Range Default Step change Maximum Power Consumption Limit Enabled vesio Ne A Battery Discharge Enabled Yes No No N A Default category LED Alarm Number Alarm name OA Y 121 Over maximum power alarm Rectifier redundancy parameters Table 5 17 Parameter and alarm for redundant rectifier switch ON OFF Parameter Range Default Step change Rectifier Redundancy Enabled Yes No No N A Min Redundancy 1 to Max Redundancy 110 100 10 Max Redundancy 111 to 4800 300 10 Switch Off Delay 1 to 60min 5min 1min Rectifier cycling parameters Table 5 1
109. are displayed in two pages shifting at the interval of 2s One page shows year month and date the other shows hour minute and second The year is displayed with four digits other time units are in two digits 2004 5 12 A 12 20 30 A 53 5V 125A 53 5V 125A System No Alarm System No Alarm Auto BC v Auto BC v Note 1 At this page you may use and b to adjust the LCD contrast 7 level 2 If there has been no keypad operation for 8 minutes the monitoring module will return to the first system information page The time of that return will be recorded automatically and can be queried through the host Other System Information Pages The system information is shown in many pages The default page of the monitoring module after the system power on is the system information first page You can press A or W to scroll up or down to view more operation information as shown in the following page Battery information page Batt1 50A A Remain 60 Batt2 50A Remain 60 w 1 Battery 1 battery 2 They represent respectively the current of the battery that battery shunt 1 and shunt 2 is connected to If the Shunt Coeff of a certain battery group is set to No this situation will be reflected at the battery information page by Not connected and no actual capacity will be displayed 2 Actual battery capacity The monitoring module can approximately calculate the remaining batte
110. arging No alarm N A discharge In the system with shunt there exists great System current 11 difference between the collected load current plus No alarm N A unbalanced the battery current and the module output current 12 Fast test During the fast test the discharge capacity of two Observation N A abnormal batteries is larger than the set value alarm 13 Battery test The battery discharge time is shorter than the Observation N A abnormal estimated time alarm The control output voltage is different from the 14 Output voltage collected bus voltage and different from the Observation N A abnormal reported data of the module The error is larger than alarm 1V In the system with AC collection board All the AC voltages are lower than 80V Neither AC circuit 1 nor circuit 2 is in working state Critical 15 AC power cut In the system without AC collection board al fm 1 AC power cut The AC input of all the rectifiers is cut off The AC input voltage of all the rectifiers is lower than the phase loss alarm threshold Multi modul ritical 16 moe More than 2 rectifiers have alarm Critica N A fault alarm System A 4 o lt has exceeded the set maintenance time of the Observation 17 maintenance N A system alarm time out Module E a e are The rectifier fails to communicate with the Critical 18 communication ar monitoring unit alarm interrupted 19 Module AC All the AC voltages are lower than the Critical power cut under voltage
111. arm for temperature compensation Parameter Range Default Step change Compensation Factor 0 to 2500mV C 72mV C 1mV C Nominal Temperature 20 to 25 C 25 C 1 C Default category LED Alarm Number Alarm name OA Y Temperature Compensation Active Temperature Compensation Coefficient The setting range of temperature compensation coefficient is O to 2500mV C and it should be set according to the actual battery parameter The battery is sensitive to the change of ambient temperature In order to ensure the battery capacity and life when ambient temperature changes the battery float charge voltage also changes The Float Charge Voltage is the normally the voltage when the room temperature is 25 C The higher the ambient temperature is the lower the Float Charge Voltage is and vice versa For the battery with 2 V battery cells the Float Charge Voltage for every cell will be decreased by 3 to 7mV when the ambient temperature is increased by every 1 C Therefore the Compensation Factor for 48V battery shall be set to 72mV to 168mV and the Compensation Factor for 24V battery shall be set to 36 to 84mV C Charging current limitation parameters Table 5 12 Charging current limitation parameters Parameter Range Default Step change Maximum Charging Current 0 5 Cy battery capacity 0 1C49 0 01 L i ing high ower consumption during high cost Yes No No N A hours enabled Prohibit B
112. at the cables are kept away from the maintenance personnel Preparation Unpacking inspection The equipment should be unpacked and inspected after it arrives at the installation site The inspection shall be done by representatives of both the user and Emerson Network Power Co Ltd To inspect the equipment you should 1 Open the packing case in which the packing list is put 2 Take out the packing list 3 Check against the packing label including customer name customer address machine No total amount case No contract No Unpacking and inspection After opening the packing case check the goods one by one according to the goods list on the packing label The checking should include 1 The number of the packing cases and the serial number marked on them 2 The correctness of the equipment packing according to the packing list 3 The number and model of the accessories according to the accessory list 4 The completeness of the equipment set according to the system configuration 5 The condition of the goods through visual inspection For example check the subrack for any damage and condensation Shake the rectifier module gently to see if any component or connection has loosened during transportation Cables The cable design should meet relevant industry standards It is recommended to use the RVVZ cables as AC cables The cable should reach at least 70 C temperature durability With cable length shorter than 30 m
113. atte 0 Caution Only the file package of tar or tar gz and the solution file MonitoringSalution cfg can be download If the downloaded file is DCD z NOT Correct 1 lx er download upload Batte e o n Select fle T B a S Diesel Gro Sains PP rcs 7 a aa ee Save in E me File in ACU Downe avein ef Desktop amp ce Transte rem 1 co 2005 06 29 18 23 52 Save as type Jwinkar 2227 Cancel ETT EE Local intranet Figure 5 33 Specify a directory In the screen shown in Figure 4 33 click Save then the file will be placed in desktop Soon following screen pops up indicating that the file has been uploaded Download complete SJ x Eh Download Complete Saved acu_cfg tar from 142 100 4 64 Downloaded 417 KB in 1 sec Download to C Documents and Settin acu_cfg tar Transfer rate 417 KB Sec T Close this dialog box when download completes Open Open Folder Figure 5 34 Download complete Click the sub menu of Clear data following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 66 Chapter 5 Use Of Monitoring Module M800D F http 142 100 4 64 cgi bin eng p01_main_frame htm Microsoft Internet Explorer proporcionado por vnunet Fie Edt View Favorites Tools Help K Back gt gt O A A Asearch Favorites meda lt E S Address la http 142 100 4 64 cgi binfeng p01_main_frame htm
114. attery Ch duri rennet Mae eee Yes No No N A Hi cost hours Default category LED Alarm Number Alarm name OA Y Battery Current Limitation Active Parameters of low voltage disconnection Table 5 13 Parameters of low voltage disconnection Parameter Range Default Step change Load LVD Enabled Yes No No 7 Battery LVD Enabled Yes No No Reconnection Voltage 40 to 60V 52 5V 0 1V Load LVD Voltage 40 to 50V 43 2V 0 1V Battery LVD voltage 40 to 50V 43 2V 0 1V Load LVD time 0 6000 min 300 min 1 min Battery LVD time 0 6000 min 300 min 1 min LLVD The M800D disconnects the LLVD contactor thus the non priority load controlled by the contactor will be powered off so that the battery can power the priority load longer If the LLVD Enable is set to Yes factory setting monitoring module will enable the auto LLVD function BLVD The M800D disconnects the BLVD contactor Thus the battery will not continue to power the load so as to prevent its life from being reduced due to over discharging If the BLVD Enable is set to Yes factory setting monitoring module will enable the auto BLVD function NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D Parameters of capacity predication Table 5 14 Parameter of c
115. ault 2007 08 27 09 17 41 CU System SPD Fault 2007 08 27 09 17 41 ISMDU 8 ISMDU failure 2007 08 15 14 53 42 ISMDU 7 ISMDU failure 2007 08 15 14 53 01 SMDU 6 ISMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 ISMDU failure 2007 08 15 14 50 18 ISMDU failure 2007 08 15 14 49 38 SMDU failure 2007 08 15 14 48 57 13 oa Battery Group Temperature sensor failure 2007 08 14 11 11 37 2007 08 27 09 44 45 Sal PTE E eae toon Figure 5 36 Restore default User can click the button of Restore default to restore all the default settings and then click the button Reboot ACU to make the default settings become effective Note If the user uses the restore function M800D may lose the original solution configuration and current parameter settings After the restore operation be sure to wait for 5 minutes before re accessing the M800D through the Web Click the sub menu of Site inventory following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 68 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster PA R FLEX 48701 ee A 2005010101 D gt DEVICE EXPLORE Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS MAINTENANCE BE D QUERY Site map PM cdiste perus All alarm Observation Major Criti
116. balance communication cable is in normal connection If the communication is normal while the protection indicator is on replace the rectifier NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 7 Alarm Handling 107 Monitoring module Symptom Causes Handling method alarms Power factor compensation internal under e Rect Protect P Replace the rectifier voltage or over voltage Protection Check whether the communication cable is in Rect Not Respond Rectifier communication interrupted indicator blinks normal connection Reset the rectifier If the protection is triggered Rect HVSD Rectifier over voltage E again replace the rectifier Two or more recitifiers have the same ID Rect Failure Contact Emerson for maintenance a number Fault indictor Check whether the rectifier communication is on Serious current sharing imbalance 9 normal If not check whether the R48 1800 load current imbalance gt 3 Rect Failure communication cable is in normal connection R48 3200 R48 2900U load current dae E y 5 If the communication is normal while the imbalance gt 5 ae Oe E des protection indicator is on replace the rectifier Fault indicator condi Rect Fan Fails Fan fault Replace the fan blinks Replacing rectifier fan If the rectifier fan is faulty and does not work it should be replaced Take the R48 1800
117. ble area and then press lt or gt to select the user and finally press ENT again to validate the selection After selecting the user press A or Y to move the cursor to the last row and press ENT to begin typing the password At this point the last row is highlighted which indicates that the controller is ready for password entry When typing the password press A or Y to select the character and press or gt to move from digit to digit Letters numbers upper case and lower case of the letters are available for the password If no key has been pressed for 4 minutes the controller will require the user to enter the password again If the password entered is wrong following screen pops up Parameter Set Password Error ESC or ENT Ret Enter the correct user name and password to access the screens of Parameter Set Parameter Set e M800D System Rect Group Batt Group wv Press A or Y to view more screens of Parameter Set Parameter Set gt SM Batt4806 LVD Unit Diesel Group w In above screen press A or Y to select the menu of Rect Group and press ENT to view the settable parameters of the rectifier For example NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 42 Chapter 5 Use Of Monitoring Module M800D Rated Voltage gt 53 50 V Rated Current 50 5 A The settable parameters of the rectifier are displayed in one more screen Press
118. cal Rectifier lost Very Under voltage 2007 08 27 09 17 51 JACU System Ambient Temperature Sensor Fault 2007 08 27 09 17 41 CU System ISPD Fault 2007 08 27 09 17 41 Signal name Sample time SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 ISMDU failure 2007 08 15 14 52 21 ISMDU failure ISMDU failure ISMDU failure 007 08 15 14 51 40 007 08 15 14 51 00 2007 08 15 14 50 18 SMDU failure 2007 08 15 14 49 38 SMDU failure 2007 08 15 14 48 57 13 OA Battery Group Temperature sensor failure 2007 08 14 11 11 37 EE CN E ZN 7 State TI PM State O DEEE i BARE traet RIOR 7 Figure 5 37 Site inventory The screen shown in Figure 4 37 displays the product information which is sampled by M800D monitoring module Click the sub menu of Get Setting Parameter following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 69 Emerson EnergyMaster EMERSON FLEX 48701 Get Setting Parameter Through this function User can get setting parameters from ACU currently D gt DEVICE EXPLORE Battery Group Get Setting Parameter DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group D gt ALARMS D gt SETTINGS D gt MAINTENANCE LE D gt QUERY Site map
119. cal requirement keep the tube and bind the cables as required to Rect 2 o Rect do Rect 1 Configuration explanation 1 AC input three schemes optional The 3P N PE 380V is one option See AC input distribution schemes for other options 2 Rectifiers 2 5 pieces optional 3 The number of the battery MCBs is determinded by requirements 2 4 routes optional 4 BLVD and LLVD the DC output routes and battery routes are protected by MCBs The contactors are normally closed type The LLVD contactor KM2 is optional 5 DC distribution DU is optional The sum dimension of the load MCBs should be smaller than 410mm The MFU can be configured with load MCBs The sum dimension of the load MCBs should be smaller than 190mm 6 If the monitoring module is M501D refer to the wiring of the monitoring backboard for M501D If the monitoring module is M800D refer to the wiring of the monitoring backboard for M800D 7 Load alarm signal connection of the monitoring backboard the first 8 load alarm signal cables connect to the first 8 load alarm terminals of the monitoring backboard The rest 2 signal cables connect to the 9th and 10th terminal of the monitoring backboard if the DU is not configured or connect to the signal transfer board of the DU if DU is configured
120. city Ah 1000 ah 2007 08 16 11 07 22 als Battery Capacity 100 0 2007 08 16 16 06 02 Battery Group DC Distribution Battery Fuse Group LVD Group gt b Signal name Sample time ava ifi Rectifier lost 2007 08 16 11 07 50 ALARMS 2 MINA acu system Very Under voltage 2007 08 16 11 07 24 SETTINGS acu System bient Temperature Sensor Fault 2007 08 16 11 07 14 MAINTENANCE ACU System SPD Fault 2007 08 16 11 07 14 QUERY SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 a eee SMDU 6 SMDU failure 2007 08 15 14 52 21 Site map ISMDU 5 SMDU failure 2007 08 15 14 51 40 a SMDU 4 SMDU failure 2007 08 15 14 51 00 2007 08 16 16 06 03 10 ISMDU 3 SMDU failure 2007 08 15 14 50 18 E IS SCS CEST CT TC TE TE gre E 0D Internet Figure 5 15 SM Battery sample signal Figure 4 15 shows the sampled values of SM battery 1 Click the button Setting to configure the battery parameters NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 54 Chapter 5 Use Of Monitoring Module M800D Data browse conirol and parameter setting of SMDU Group Click the menu of SMDU Group and then the submenu of SMDU1 following screen shows up Emerson EnergyMaster amp ea ita Control Settina FLEX 48701 Signal name Sample time A gt DEVICE EXPLORE Battery Group 2
121. current test and short test 7 Batt Discharge Battery is discharging NoAlarm None Curr If the DC Power System has shunts the addition of 8 i measured load current and Battery current differs NoAlarm None Discrepancy Ja rectifier output current noticeably Short Test Fault In short test difference in 9 Short Test Fail discharging current of two batteries is bigger than Observation None setting value 10 Batt Test Fail Battery discharging time shorter than expected Observation None Actual output voltage is different from both the measured DC bus voltage and different from the 11 Volt Discrepanc a Observation None pancy voltaged reported by the rectifier to SCU The error is bigger than 1V DC output under 12 DC Volt Low 2 DC output voltage very low Critical 2 p voltage alarm point DC output under 13 DC Volt Low 1 DC output voltage low Critical 2 p i voltage alarm point DC output over 14 DC Volt High 1 DC output voltage high Critical 2 p voltage alarm point NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 21 Serial naz Default Default Related parameter Alarm Description No alarm level related relay configuration DC output over 15 DC Volt High 2 DC output voltage very high Critical 2 p voltage alarm po
122. cursor to the menu of Alarm Level and press ENT the following screen pops up to allow the user to set the alarm level Alarm Level gt M800D System Rect Group Rectifier Method of setting the alarm level NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 43 With the alarm level setting of Rectifier as an example In the preceding screen press A or Y to move the cursor to the menu of Rectifier and press ENT following screen pops up Rect AC Failure Major Rect Over Temp Observation vw The above screen displays the alarm information of the rectifier The information is configurable The alarm information is displayed in several screens user can press A or Y to scroll through the screens to view the alarm information If user wants to change the alarm level of Rectifier AC Failure from Major to Critical press A or Y to move the cursor to the setting of Rectifier AC Failure and press ENT At this point this row is highlighted which indicates user can modify the setting User can select the alarm level of Critical by pressing or gt Method of setting alarm control The Alarm parameter setting is shown in the following figure Alarm Param gt Alarm Level Alarm Control In the preceding screen press A or Y to move the cursor to the menu of Alarm Control and pre
123. d By default 2 Set the battery capacity according to the actual capacity of the battery connected to the system El Default 300Ah Configure the temperature coefficient according to the battery manufacturer s requirement Setting range 0 500mV C By default 72mV C if no temperature sensor is installed do not set this parameter Set the charge current limit according to your needs Setting range 0 1 0 25C p By default 0 1C p Set the monitoring module according to the voltage suggested by the battery supplier Floating Charge FC voltage range 42V Boost Charge BC voltage Default 53 5V BC voltage range FC voltage 58V By default 56 4V For batteries that do not need BC set the BC voltage to FC voltage plus 0 1V Put through the battery MCBs and connect the batteries 3 3 Alarm Check And System Operation Status Check Alarm check Check that all functional units can trigger alarms that can be displayed on the monitoring module oK Comments Pull out one rectifier The Rect N Com Failure alarm should be triggered Insert the rectifier in The alarm should disappear Repeat the same procedures on other rectifiers Remove battery MCB 1 The Batt1 Failure alarm should be triggered Put on the MCB The alarm E should be cleared Repeat the same on battery MCB 2 Switch off a load MCB connected to a load route The alarm Load N Failure should be triggered Switch on the MCB and the ala
124. described in Table 1 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Item Monitoring module Rectifier DC power distribution Battery MCB Maximum dimensions Weight Chapter 1 Table 1 1 Configuration of fixed configuration system NetSure 501 A50 Overview 3 NetSure 501 AAO NetSure 701 A51 PS48300 3A 3200 NetSure 701 A51 PS48300 3A 3200 X2 Model M501D Model M501D Model M501D Model M500D Model R48 1800 Standard configuration 5 pieces Model R48 1800 Standard configuration 10 pieces Model R48 3200 Standard configuration 5 pieces Model R48 2900U Standard configuration 3 pieces AC power distribution 3P N PE 380Vac BLVD load route 3 x 63A 1P 3 x 32A 1P 4 x 10A 1P MCB No LLVD load route 2 x 125A 1P 483 W x 380 D x 267 H 25kg not including rectifiers and monitoring module 3P N PE 380Vac BLVD load route 5 x 63A 1P 5 x 32A 1P 8 x 10A 1P MCB No LLVD load route 2 x 125A 1P 483 W x 380 D x 490 H 30kg not including rectifiers and monitoring module 3P N PE 380Vac BLVD load route 5 x 63A 1P 5 x 32A 1P 8 x 10A 1P MCB No LLVD load route 2 x 125A 1P 483 W x 380 D x 445 H 25kg not including rectifiers and monitoring module P N PE 230Vac BLVD load route 4 x 40A 1P 1 x 10A 1P MCB No LLVD load route 2 x 125A 1P 4
125. e over voltage alarm parameter alarm The AC input voltage of the power system is lower Observation 28 AC phase loss P 9 E y N A than 80V alarm A The AC in oltage of the system is lower than Observation 29 SAC input y a 7 y was N A Under voltage alarm under voltage the set value of the under voltage alarm parameter alarm The AC input voltage of the system is higher than Observation 30 AC over voltage MPN a a N A Over voltage alarm the set value of the over voltage alarm parameter alarm The temperature is higher than the set value of the Over temperature 31 Temperature over temperature alarm parameter Observation N A alarm threshold Alarm The temperature is lower than the set value of the alarm Low temperature low temperature alarm parameter alarm threshold Batter The battery temperature is higher than the set value of the high temperature alarm parameter Critical High temperature 32 Jover temperature N A l rm The temperature sensor has not been connected or alarm alarm threshold has fault Lightnin EE Critical 33 9 9 The lightning protection circuit has fault 8 protector fault alarm AC input circuit A as ha Existing in the a 34 breaker The AC input circuit breaker of the system is Critical N A system with AC E disconnected alarm 7 disconnected collection board Other equipment q Critical 35 aumen including the DC DC module fault N A fault alarm The alarm name is defined by the user
126. e 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 Zz s SMDU failure 2007 08 15 14 51 00 2007 08 16 16 46 07 SMDU failure 2007 08 15 14 50 18 Figure 5 42 Modify signal User can modify the signal name in the screen shown in Figure 4 42 After the entering the new signal name click Set to validate the change 5 3 8 Query Click the menu of Query and then click History data following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 73 Emerson EnergyMaster EMERSON FLEX 48701 Device name History All device Query type 2007 08 16 00 00 00 From DEVICE EXPLORE To 2007 08 16 23 59 59 Query Download The max show record number is 500 Please input proper query parameter Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS MAINTENANCE DE BRS pss Alarm level Sample time Rectifier ost 2007 08 16 16 43 48 2 WA cu System Very Under voltage 2007 08 16 16 43 23 NA System Ambient Temperature Sensor Fault 2007 08 16 16 43 13 ACU System SPD Fault 2007 08 16 16 43 13 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 1
127. e 50s 300s 300s the parameter HVSD Time If the rectifiers output voltage is normal within the delay the rectifier is regarded normal otherwise the rectifier will be locked out and auto restart function will be disabled NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 32 Chapter 4 Use Of Monitoring Module M500D 4 7 10 System Settings Users of different password levels have different authorities 1 For the user level password 1 by default there are 2 related pages as shown below Adress 1 Set Date A Text Chinese 2004 05 01 CommMode Modem Set Time Baud 9600 17 30 30 Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save When the CommMode is MODEM or EEM M the CallBack Number and CallBack Num how many times should callback be made should be set CallBack Num A CallBack Number 5 gt 01234567901234 CallBack Set 56789 Code1 v Use Y or A to change the number and lt or gt to move the cursor left or right Press ENT to confirm 2 For the operator level password by default 2 or administrator level password by default 640275 you can see the following pages besides the pages above as shown below Init PWD N Init Param N System Type 48V 50A 300
128. e M800D Modify device Modify sianal 71 SiteName TestACU set Site Site Location a Alarm level Relative device Shenzhen set Site Description Test ACU po Sample time Bale 0 System 3 a acusystem RectifierGroup Rectifier bet 2007 08 16 16 43 48 Very Under voltage 2007 08 16 16 43 23 Ambient Temperature Sensor Fault 2007 08 16 16 43 13 ACU System SPD Fault 2007 08 16 16 43 13 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SSMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 SMDU 4 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 Figure 5 40 Modify M800D information In the screen shown in Figure 4 40 user can click the button Modify device following screen pops up Emerson EnergyMaster FLEX 48701 DEVICE EXPLORE Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group gt ALARMS gt SETTINGS gt MAINTENANCE Be QUERY Site map Modify ACU Madifw device Modify sianal amp EMERSON ACU System ACU System RectifierGroup Rect Group Batt Group Battery1 Battery Group Battery1
129. e device information User needs to restart M800D to browse the device information Click the button of Close ACU and then following screen pops up Zj http 142 100 4 64 cgi bin eng p01_main_frame htm Microsoft Internet Explorer proporcionado por vnunet lex File Edt View Favorites Tools Help Heak gt Dl A Qsearch Favorites Meda lt 4 B Sy Address E http 1142 100 4 64 cg binfeng p01_main_frame htm Coo Links gt amp Emerson EnergyMaster EMERSON Close ACU System A 0 Clase ACU bd 4 gt 2005 06 29 18 23 52 yp O A O Figure 5 31 Upload download screen 2 Figure 4 31 shows Waiting to prompt the user that M800D is being closed after M800D is closed following screen pops up y http 142 100 4 64 cgi bin eng p01_main_frame htm Microsoft Internet Explorer proporcionado por vnunet i lex Fie Edt View Favorites Tools Help Back O A A Asearch Favorites meda Eby G Address E http 142 100 4 64 egr binfeng p01_main_frame htm Pu ink gt amp Emerson EnergyMaster EMERSON a D PLOR Upload Download file 0 Caution Only the file package of tar or tar gz and the solution file MonitoringSolution cfg can be download If the downloaded file is NOT correct the ACU will run abnormally The ACU must be restarted manually after download upload Batte e Gro D Gro Select file Browse A 0 Diesel Gro J Download File in ACU C
130. e system before you change their values NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 15 Note For the exact meanings of the abbreviations used in LCD displayer see Appendix 7 Glossary 1 The LCD will prompt you to select a language once the monitoring module is powered on English English You can use lt gt A or Y to select the language you want and press ENT to confirm 2 The monitoring module will prompt you to wait and start initialization Waiting 3 The first system information page appears 2004 5 12 A 53 5V 125A System No Alarm Auto BC v The system information is shown in many pages You can repeatedly press W to view other system information pages in a cycle 4 At any system information page press ESC to enter the help page which displays software version SW product code PC product reversion PR and serial number SS SW V1 20 PC 1M502D PR A00 SS 01051200012 5 At any system information page press ENT to enter the MAIN MENU page which contains 3 sub menus Status Maintenance and Settings MAINMENU gt Status Maintenance Settings You can press A or Y repeatedly to select a sub menu and press ENT to enter the sub menu Press ESC to return to the menu of higher
131. e value of temperature compensation coefficient is described as follows Table 6 13 Description of temperature compensation coefficient Parameter Setting range Default value Value description The Ambient Temp and Battery Temp refer to the measurement Temperature 1 N A battery of the ambient or battery temperature sensor at the local power temperature N A system None means there is no measurement input You should ambient set this parameter according to the actual situation The Temperature 2 temperature temperature measurement data will be displayed in the system operation information screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D Parameter Setting range Default value Value description Temperature Batteries are sensitive to temperature To ensure battery s compensation 10 C to 40 C 25 C capacity and life its FC voltage should change together with the When the point temperature lower FC voltage for higher temperature and vice value of versa temperature 1 lt FC BattTemp Center Temp Temp Comp or temperature Temperature Upon alarms such as Rect Com Failure DC Under volt and DC A k 0 to ORA e 2 is Battery compensation 500Mv C 72Mv C Voltage High the monitoring module will not do temperature temperature coefficient com
132. e wiring of the monitoring backboard for M501D If the monitoring module is M800D refer to the wiring of the monitoring backboard for M800D 7 Load alarm signal connection of the monitoring backboard the first 8 load alarm signal cables connect to the first 8 load alarm terminals of the monitoring backboard The rest 2 signal cables connect to the 9th and 10th terminal of the monitoring backboard if the DU is not configured or connect to the signal transfer board of the DU if DU is configured 8 There are 22 load alarm signal cables in the DU all connected to the monitoring backboard via the two signal transfer boards in the DU 9 This diagram describes the flexible configuration system The actual wiring devices and components configured are determined by the configuration document and described in corresponding design document 2 Peel the heat shrinkable tube before wiring if the cable terminal is wrapped with it If the cable needs no connection Figure 2 NetSure 701 A51 PS48300 3A 3200 wiring diagram NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 2 Wiring Diagram 115 Rectifier subrack1 Back view To 1 PL busbar Ge mee Ge Hy 48V LT Li W l iv a l wil Monitoring backboard for M501D MFU
133. em SPD Fault 2007 08 16 11 07 14 SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 E SMDU failure 2007 08 15 14 51 00 2007 08 16 15 58 28 SMDU failure 2007 08 15 14 50 18 3 AM Internet Figure 5 7 Rectifier screen 2 The signals in the screen shown in Figure 4 7 are all the values used to control the rectifier For example in Fan full speed control user can select Full Speed and click Set to make the rectifier fan run at full speed The control command is effective for all the rectifiers Pay attention that the Control button is only active when the M800D is in NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 49 manual status Therefore before implementing the Control operation the user have to set the Auto Man State of the M800D System to Man status Click the button Setting following screen pops up Emerson EnergyMaster Sample Control Settina FLEX 48701 Signal name Value Unit Setting time Set value set q Rated Voltage 53 51V Set D DEVICE EXPLORE 2 Rated Current 50 0 A Set 3 High Voltage limit 59 0 v 2007 08 16 15 59 37 i J
134. er 1 8 or None None means there is no corresponding dry contact For details see 6 7 2 Alarm Settings 6 5 5 Programmable Setting On The Dry Contact Output Alarm Type The PLC control is configure d by the background tool software The configuration method for the control function of the PLC is as follows D A Status B Status C Status D Indicates the serial number of the dry contact corresponding to the output Dry contacts 1 8 are available for selection A B C indicate the input alarm type Status is for judging whether the alarm has occurred indicates the logic relation between two types of alarms and or may be selected The alarm types available for selection are shown in the following table Alarm type Alarm type Alarm type Alarms Blocked DC Voltage Non float work Distr Fuse Fail AC1 Phase A Battery Discharge Load NF1 Fail AC1 Phase B Curr Imbalance Load NF2 Fail AC1 Phase C Short Test Error Load NF3 Fail AC2 Phase A Battery Test Error Load NF4 Fail AC2 Phase B LVD2 Load NF5 Fail AC2 Phase C LVD1 Load NF6 Fail Load Current Output Voltage Error Prio Load1 Fail Battery 1 Current Mains Fault Prio Load2 Fail Battery 2 Current Mult Rect Alarm Prio Load3 Fail Battery Fuse 1 Need Maintence Digital1 Battery Fuse 2 Rect not Respond Digital2 Battery Fuse 3 Rect AC Fail Digital3 Battery Fuse 4 Rect Over Tem
135. er ID 2 Use A or Y to move the cursor to the maintenance operation area and lt or gt to select the value If the rectifier voltage is too high you can select Reset to restore the output voltage of that rectifier to normal 6 There will be prompts as the confirmation of control commands If the maintenance operation is valid system will prompt you press ENT to confirm and execute the operation or ESC to abort the operation Otherwise system will prompt you the operation is invalid and press ESC to quit Press ENT to run No Maintain Other Key Quit ESC Quit or Press ESC to return to the menu of higher level Setting System Parameters Battery parameters are very important for they are related to the life of battery Before delivery the battery parameters have been initialized Without any special needs you only need to reset the battery group number and battery capacity and accept the defaults for other parameters NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 24 4 7 1 Chapter 4 Use Of Monitoring Module M500D Parameter Setting Method 1 At any system information page press ENT to enter the main menu MAINMENU gt Status Maintenance Settings 2 Use A or Y to select the submenu Settings and press ENT to confirm System will then prompt you to input the passw
136. ers of the device name and signal name can be English letters digits space and underline Other characters are illegal Click the button of Modify signal following screen pops up Emerson EnergyMaster e 8 Modify ACU Modify device Modify sianal FLEX 48701 Query device type Signal type ACU System x Sample signal x DEVICE EXPLORE Index Signal full name Signal abbr name New name Modify type Set 1 System Voltage System Voltage Full name v Set Battery Group E DC Distribution 2 System Load System Load Full name y Set Battery Fuse Group j LVD Group 3 System Power System Power L Full name v Set AC Group 4 Total System Power Consumption Power Consump Full name y Set SMDU Group 7 ALARMS 5 Current power peak limit Power limit Full name Set SETTINGS 6 Power Peak In 24 Hours Power Peak Full name v Set MAINTENANCE BE 7 Average Power in 24 Hours Avg power Full name Y Set 8 Hardware WWrite protect Switch Hardware Switch Full name y Set 9 Ambient Temperature Ambient Temp Full name y Set 10 SPD Statis SPN Status Full name Ball s 1 All alarm Observation Maior Critical QUERY Index Alarm level Relative device Signal name Sample time A 1 RectifierGroup Rectifier lost 2007 08 16 16 43 48 Site ma 2 A ACU System Very Under voltage 2007 08 16 16 43 23 site map ACU System Ambient Temperature Sensor Fault 2007 08 16 16 43 13 ACU System SPD Fault 2007 08 16 16 43 13 SMDU 8 SMDU failur
137. eters the Cross Sectional Area CSA calculation should be based on the current density of 2 5A mm The suggested CSA value is no less than 25mmY The CSA of DC cable depends on the current flowing through the cable and the allowable voltage drop To select the battery cable CSA see Table 2 1 Select the DC load cable CSA according to the Table 2 2 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 2 3 Chapter 2 Installation Instruction 5 Table 2 1 Battery cable CSA selection Battery MCB rated current Max battery current Min cable CSA Max cable length allowable voltage drop 0 5V 125A 100A 25mm 14m Note should be increased 1 The specs are applicable at ambient temperature of 25 C If the temperature is higher or lower than this the CSA of the cable 2 The battery cable should reach at least 90 C heat durability It is recommended to use double insulated copper core flame retardant cable as battery cable Table 2 2 DC load cable selection Load route rated Max output Min cable Max cable length volt drop Nee Gable BGA Max cable length volt drop current current CSA 0 5V with min CSA 0 5V with max CSA 63A 32A 16mm 7m 25mm 11m 32A 16A 16mm 14m 25mm 22m 10A 5A 6mm 17m 25mm 71m Note The specs are applicable at ambient temperature of 25 C If the temperature is higher or lower
138. evo 4 SMDU failure 2007 08 15 14 51 00 8 ba sMmDU3 SMDU failure 2007 08 15 14 50 18 9 oa smDUZ2 SMDU failure 2007 08 15 14 49 38 10 oA SMDUA SMDU failure 2007 08 15 14 48 57 2007 08 16 16 21 24 41 OA Battery Group Temperature sensor failure 2007 08 14 11 11 37 Figure 5 22 Network configuration gt lt In the screen shown in Figure 4 22 the user can configure the network parameters of M800D such as M800D IP default gateway and Mask After modifying the network parameters click Save Parameter to validate the change made the parameters After modifying the IP address be sure to re log in the M800D with the new IP address Click the sub menu of NMS Configure following screen pops up Emerson EnergyMaster FLEX 48701 NMS Configure Current NMS DEVICE EXPLORE MS IP Accept trap level Public community Private community EMERSON Battery Group DC Distribution Battery Fuse Group LVD Group AC Group Add New NMS Modifv NMS Delete NMS SMDU Group ALARMS NMS IP Public community public Private community private SETTINGS Change NMS s trap All current NMS s trap will change moused y Change tran E Accept trap level lt TENANCE bient Temperature Sensor Fault 2007 08 16 11 07 14 2 QUERY SPD Fault 2007 08 16 11 07 14 SSMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 1
139. ew the values of rectifier 1 that can be controlled as shown in Figure 4 10 Emerson EnergyMaster FLEX 48701 oc On Off Control 2005 06 29 17 45 47 D gt DEVICE EXPLORE 2 lac On Off Control 2005 06 29 17 45 47 RectifierGroup Rectier Raset Battery Group DC Distribution Battery Fuse Group LYD Group AC Group Diesel Group 2005 06 29 17 45 48 Figure 5 10 Control screen of rectifier 1 In the screen shown in Figure 4 10 the user can control rectifier 1 For example the user can set the AC input of rectifier 1 to on Data browse control and parameter setting of battery Click the icon in the left of BatteryGroup all the sampled values of the battery group are displayed as shown in Figure 4 11 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 51 Emerson EnergyMaster Be 21 1 Battery Voltage O 0 V E O PLOR 2 Battery Current OA 2007 08 22 11 32 12 3 Battery Temperature 273 deg C 2007 08 22 11 32 15 4 Total Time of Shallow Cycles 1Imin 2007 08 22 11 31 10 5 Total Time of Deep Cycles 1 min 2007 08 22 11 31 20 6 Total Time of Deep Discharge 755 min 2007 08 22 11 32 12 7 Total times of Shallow Cycles 11 2007 08 22 11 31 00 8 Total times of Deep Cycles Y 2007 08 22 11 31 10 9
140. gs gt DC Settings Batt Settings Rect Settings AC Settings w Sys Settings Users with different password levels are entitled to set different types of parameters or operation types shown as follows Table 6 4 Different password levels and revelant operation types Level Operation authority Default password User Configuration of general parameters 1 Operator User s authority plus resetting system resetting password and modifying system type 2 Operator s authority plus modifying password of all levels controling alarm sound volume 640275 browsing system parameters that can be set only through the host Administrator NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 91 4 There are two pages of Settings Shift page by using Y or A and select the parameter by using Y or A Press ENT to confirm As shown in the above figure the parameters are classified into 6 categories by the monitoring module including alarm parameter battery parameter AC parameter DC parameter module parameter and system parameter The alarm parameters include three types alarm level alarm mode and alarm control shown as follows Alarm Settings gt Alarm Level Alarm Mode Alarm Control The battery parameters include five types basic parameters LVD protection charge management battery test and temperature com
141. hanging Alarm Types Of Dry Contacts c cccccceesceeeeeeeeeeeeeeeeeeeeeeseeeeeeeeeaeeseeesaeeeeeesieeeseeeesiaeeseaeenaas 22 4 6 MaintenanCe cupiin iaa ci ani ee 22 4 7 Setting System Parameters elsa dadas 23 4 7 1 Parameter Setting Method cescceesseceseceseeseseeseeneceaeessanesesaesaneseaaessaneseaaessaeeseaaeseacessaaeseeeseeeseeeenenas 24 4 7 2 Battery SeleClion sn chk tte ae Se eet a 25 4 7 3 LVD Parameter DeScriptionisic s ssccetect ccc a aa rta a r ar Ee ai E e a a aa a E E a area ea aE e EE PHEA aE EEE eaa ini 26 4 7 4 Charging Management ParametelS ooocccccnccccoccconoccnoncnnnnnnnon conan ca nnn cc nan nnnn nn rn narrar rara rra rra 27 4 7 5 Battery Test Parameters copio ta its 28 4 7 6 Temperature Compensation Coefficient ParameterS oooccinnncinnccnonccnoncnnanccnnnnnnancn ran cnnancn narran crac 29 4 7 1 AG S UINGS 2 iui ition a id 30 470 DG Sets iii ate eee Ris Rte ata laa eta 31 4 79 Rectifier Settings neironi eh A a 31 AAO SYSTEM NS oct Meet ete Se ee teeta he a e al 32 Ai 7AM Alarm SeS a a dt iii 34 Chapter 5 Use Of Monitoring Module M800D cccccessseeceeeeeeeeeeeeeeeeeaeececeeeeeeecaeeeeeeaaeseseeeeescnaeeesecaeeeessueeeessseeeesaes 36 51 Operation Panels ici Rave ain dati ele hanced Aan ada Mand adenine taza 36 USC Ot Tine Operation Panel it 37 A Main Screen vies neice n ten nee aie ci A ee see vee vl 37 9 2 2 Malini Men conil dica 37 5 2 3 Running Information oca a 37 924
142. he new rectifier shares current with other rectifiers 3 When this new rectifier is pulled out there is a corresponding alarm and the monitoring module displays the alarm NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 108 Chapter 7 Alarm Handling If the new rectifier passes all the above tests the replacement is a success 5 Push the handle back into the front panel to fix the rectifier with the positioning pin Fix the fixing screw of the handle of the R48 1800 rectifier with a Phillips screwdriver NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 1 Technical And Engineering Data 109 Appendix 1 Technical And Engineering Data Table 1 Technical data Parameter category Environmental Parameter Description Operating temperature 5 C 40 C Storage temperature 40 C 70 C Relative humidity 5 RH 95 RH Altitude lt 2 000m derating is necessary above 2 000m Others No conductive dust or erosive gases No possibility of explosion AC input system NetSure 701 A51 PS48300 3A 3200 X2 P N PE 230Vac Others 3P N PE 380Vac Input voltage range NetSure 701 A51 85 290Vac NetSure 501 A50 NetSure 501 AAO 85 300Vac AC input Input AC voltage frequency 45Hz 65Hz NetSure 701 A51 lt 103A Max input current NetSure 501 A50 lt 54A NetSure 50
143. he rectifiers is disabled 2 Single rectifier Click the submenu Rectifier1 of RectifierGroup following screen pops up as shown in Figure 4 9 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 50 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster a Control Setting FLEX 48701 Index Signal name Value Sample time s 5 2054003193 2005 06 29 17 44 06 Voltage 54 80 W 2005 06 29 17 44 06 Current Value 9 11 4 2005 06 29 17 44 06 D gt DEVICE EXPLORE 4 ac Status On 2005 06 29 17 44 06 RectifierGroup 5 DC Status On 2005 06 29 17 44 05 6 Input AC voltage 216 15 V 2005 06 29 17 44 06 7 Current limit 105 84 2005 06 29 17 44 06 8 8 Derate by AC Normal 2005 06 29 17 44 06 E 9 Derate by Temp Normal 2005 06 29 17 44 06 10 Temperature 31 60 deg C 2005 06 29 17 44 06 11 Used capacity 19 05 2005 06 29 17 44 05 Battery Group 12 Total Running Time 605 h 2005 06 29 17 44 06 DC Distribution Battery Fuse Group LYD Group AC Group Diesel Group 3 WALK In enabled status Disabled 2005 06 29 17 44 06 2005 06 29 17 44 08 Figure 5 9 Sampled values of single rectifier The screen shown in Figure 4 9 shows the sample value of Rectifier1 similar to the operation of RectifierGroup the user can click the button Control to vi
144. ifier25 SPD Fault 2007 08 16 16 43 13 Site map 2007 08 16 16 48 30 Click the button Log to pop up the following screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Rectifier26 Rectifier27 SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 SMDU failure 2007 08 15 14 50 18 Figure 5 44 Query history data 74 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster Control log v FLEX 48701 Guersatyne From 2007 08 16 00 00 00 DEVICE EXPLORE To 2007 08 16 23 59 59 Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS MAINTENANCE Ly All alarm Observation r Critical Index Alarm level Relative device Signal name 4 EMERSON Download gt gt Sample time ACU System ACU System Site map SMDU 8 SMDU 6 SMDU 5 RectifierGroup Rectifier lost 2007 08 16 16 43 48 acu System Very Under voltage 2007 08 16 16 43 23 Ambient Temperature Sensor Fault 2007 08 16 16 43 13 SPD Fault 2007 08 16 16 43 13 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 0
145. ill display password incorrect Description When entering into the Maintenance screen the user can select the user level password engineer level password and manager password as the operation password The operation authorities are of the same 4 Press the A or Y key to pop up the operation screen There are two screens MAINTENANCE RectVolt 53 5V 4 Start Float RectLimit 121 LVD1 ReConnect Select Rect 1 LVD2 ReConnect Y Con No DC ON 5 Press lt or gt key to select the relevant actions Start The option includes the boost charge float charge test of the battery pack If the system has not been configure d with battery or the battery has been powered off the control is invalid If the system has AC power cut alarm or the bus voltage is too low the system will not conduct the boost charge and battery test control When the module communication is interrupted the battery test control cannot be conducted After the battery test is completed the battery management mode will automatically change from manual to auto LVD1 The item includes the load ReCoonect DisConnect LVD2 The item includes the battery ReCoonect DisConnect If the system has no battery or the battery bypass is alarming or the battery is in the non float charge state the LVD2 control operation is invalid The operations available Only when the power system is in the float charge state c
146. inoccnoncconnononncnnncononnc ono cnn nn cnn nn nn rc nnn rn nan nn anna narra nnnr nan nc nan cnnnncinns 82 61 ErontiP ae caia ia iaa 82 6 2 PowerOn Order fesssc ito dalla nta a nn abe eid eee de 82 6 3 QuUErVING SYSlteMi Status A A ia 84 6 3 1 First Page Of System Information ssa eisino i ie Ee i iaeia 84 6 3 2 Other System Information Pag8S ooocccocccincccnoccconoccnanncnnnnnnnn conan cn nan cn nan nnrn rra rana rra 84 04 Querying Rectifier Statuse isi cece da 85 6 5 Querying And Handling Alarm is coin aaa 86 6 5 1 Querying Active Alarm yi e iene eine e aa Ea ES E EE EEE E SE E O E Naaa 86 6 5 2 Querving Alarm Histotias a MRS athlete A aa 87 6 5 3 Changing Audio Video Alarm And Alarm Callback cccccececeeeeeeseeeeeeeeeeeeeeseneesaeeeeeeesaeeseeeesnaeeneaeenaas 87 6 5 4 Change Alarm Types Of Dry Contacts ccccceccceeeeeeeeeeeneeeeeeeeeeeeeeaeeeeeesaeeseeeesaeeseeeesieeesieeesiaeeseeeenaas 88 6 5 5 Programmable Setting On The Dry Contact Output Alarm Type cceecceeeeeeeeeeeeeeeeeeeeeeeeeeseeeseaeeneeeenaas 88 6 6 Maime n eene inset filet A ee ee eR eet 89 6 7 Setting System Parameters corr ali bles 90 6 7 1 Parameter Setting Method ccceecive civic edi danana iaa eee 90 627 2 Alarm Settingss india Rated ivi aida A tind in RATA de 91 6 73 Battery Setins tada 94 6 7 4 AG SENGE ne ses seis chy eee eae A ae ac ee i ee 100 TODO SCUNOS tin te bo tees eile ee Ree eee es 101 6 7 6 Rectifier
147. int All the AC i l from the rectifier are less 16 Mains Failure hee pel vole Major 1 than 80V AC Vol AC i han AC Low 2 Th AC input under 17 C Voltage C input voltage less than C ow e Obsenation None p l Low2 default for AC Voltage Low 2 is 80Vac voltage alarm point AC input voltage lower than the setting of AC AC Vol AC input under 18 C Voltage Low 1 The default for AC Voltage Low 1 is Observation None p i Low1 voltage alarm point 180Vac AC input voltage higher than the setting of AC AC input over 1 AC Voltage High es Observation None 9 ge MIJA High The default for AC Voltage High is 280Vac voltage alarm point 20 Maintain Alarm Time to maintain system Observation None 21 Self detect Err Hardware Self detect Error No Alarm None 22 Manual Mode Battery management is in manual control mode Observation None a When system reaches settable level of total 23 High Load F 9 capacity The default is 75 24 Power Major System contains Major or Critical alarm red LED Critical None 25 Power Minor System contains Observation alarm yellow LED Critical None Th ller has detected a reduction in the 26 Rectifier Lost controler ce Observation None number of running rectifiers 27 Multi Rect Alarm More than two rectifiers alarm Critical None The output current of one rectifier is higher than Load share f bis 28 Alarm the certain value and higher than the average Critical None value for
148. ircuit of PCBs Before any operation on battery pay attention to the following points Remove the watch bracelet bangle ring and other metal objects on the wrist Use special insulated tools Use eye protection device and take preventive measures Wear rubber gloves and apron to guard against electrolyte overflow In battery transportation the electrode of the battery should always be kept facing upward Never put the battery upside down or slanted BLVD The system has battery low voltage disconnection BLVD function BLVD means when the mains fail and batteries supply power the monitoring module cuts the load off when the battery voltage drops down to below 43 2V to prevent over discharge The BLVD voltage is settable Refer to 4 7 2 Battery Selection 5 3 6 Settings or 6 7 3 Battery Settings for setting method The factory setting is enabling BLVD which means that if power outage lasts for a long time or the power supply system fails there might be BLVD Users should classify the loads and connect the priority loads to BLVD routes For vital loads users can disable BLVD of these loads to insure reliability of the power supply The method of disabling BLVD is Set BLVD Enable item of the monitoring module to N Refer to 4 7 3 LVD Parameter Description 5 5 2 Battery Management Parameters or 6 7 3 Battery Settings for setting method A Notice The advantage of enabling BLVD is protecting the batteries from
149. ite map ME All alarm Observation Major Critical Alarm level Relative device Signal name Sample time 1 i Rectifier lost 2007 08 27 09 18 16 2 Very Under voltage 2007 08 27 09 17 51 mbient Temperature Sensor Fault 2007 08 27 09 17 41 ISPD Fault 2007 08 27 09 17 41 SMDU failure 2007 08 15 14 53 42 SMDU failure 2007 08 15 14 53 01 SMDU failure 2007 08 15 14 52 21 ISMDU failure 2007 08 15 14 51 40 ISMDU failure 2007 08 15 14 51 00 ISMDU failure 2007 08 15 14 50 18 ISMDU failure 2007 08 15 14 49 38 ISMDU failure 2007 08 15 14 48 57 Temperature sensor failure 2007 08 14 11 11 37 System Voltage CO SET O ES CT EEC ET logout NAT A tr ao e Figure 5 39 Auto Configuration User can click the button of Auto Configuration to start the process of auto configuration Click the sub menu of Modify configure online and then click the button of Modify M800D to pop up following screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Emerson EnergyMaster FLEX 48701 DEVICE EXPLORE Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group ALARMS SETTINGS MAINTENANCE Lf QUERY Site map In the screen shown in Figure 4 40 user can modify the information of M800D such as the site name and site location Chapter 5 Use Of Monitoring Modul
150. ity smaller K ya than To BC Capacity ES N FC BC ANE Pa A E Xo bA Va N ras re Charge current Constant BO A smaller than time up KU J Constant Constant BC gt BC j Curr ne e BC time longer than ra N 5 BC LVD Time a P aie A Abnormal situation Figure 6 2 BC and FC illustration In the diagram FC stands for Float Charging and BC stands for Boost Charging Battery test setting The setting interface is divided into screens as shown in the following Battery Test Test End Cap Voltage 45 2V 0 700C10 Time 300min Plan Test Enable N v Planed Test 1 Planed Test 3 01 01 00 00 01 01 00 00 Planed Test 2 Planed Test 4 04 01 00 00 04 01 00 00 Short Test Short Test Stable Test Enable N Cycle 720h Enable N Alarm Current Duration Current 10A 5 min 9999A When conducting setting use Wor A key to select one of screens or parameter items to be set and lt or gt to select the parameter value Then press ENT key to confirm and save The value of battery test parameters is described in the following table NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 99 Table 6 12 Description of battery test parameters Parameter Setting range Default value Value description
151. larm E engineer El Critical Administrator User name user Authority Operator Y Browser gt ENANOS U system Ambient Temperature Sensor Fault 2007 08 16 11 07 14 D gt QUERY ACU System SPD Fault 2007 08 16 11 07 14 SMDU 8 SMDU failure 2007 08 15 14 53 42 _ lt lt lt lt lt lt gt SMDU failure 2007 08 15 14 53 01 Site map SMDU failure 2007 08 15 14 52 21 SMDU failure 2007 08 15 14 51 40 SMDU failure 2007 08 15 14 51 00 8 SMDU failure 2007 08 15 14 50 18 F 1 J 9 SMDU failure 2007 08 15 14 49 38 10 EUL 1 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 24 19 11 0A Battery Group Temperature sensor failure 2007 08 14 11 11 37 Y Figure 5 25 User information configuration In the screen shown in Figure 4 25 the user can add a user and the method is as follows 1 Enter the user name in the box at the right side of User name 2 Select authority of the user 3 Select the user type 4 Configure the password for the user 5 Finally click Ada button to add the user The method to delete a user is as follows 1 Select the user to be deleted in the user list 2 Click Delete user to delete the user The method to modify a user is as follows 1 Select the user to be deleted in the user list 2 Modify the user information 3 Click Modify the user to validate the m
152. larm serial No alarm level alarm name and time year month day hour minute and second The alarm raising time determines the sequence it is displayed with the latest alarm displayed first Use A or W to view all active alarms While querying rectifier alarms press gt and the rectifier ID will be displayed and the Run indicator of the corresponding rectifier will blink Rect ID gt 01051200012 In the case of battery test alarm or maintenance time alarm press to display the prompt information Notice Press ENT Clear ESC Key Quit In the prompt page press ENT to confirm the alarm 4 At any active alarm information page press ESC repeatedly and you can return to the higher level menus 4 5 2 Querying Alarm History 1 At any system information page press ENT to enter the main menu 2 Press A or Y to select the Status submenu and press ENT to confirm STATUS Rectifiers Active Alarm Alarm History NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 20 Chapter 4 Use Of Monitoring Module M500D 3 Use A or W to select the Alarm History as shown in the above figure and press ENT to confirm If there is no historical alarm the prompt will be Alarm History None ALARM HISTORY None The historical alarms of the monitoring module are stored
153. lay output 4 normal open DO4_NO 1 Relay output 5 normal close DO5_NC 2 Relay output 6 normal close DO6_NC J5 3 Relay output 5 common DO5_COM 4 Relay output 6 common DO6_COM 5 Relay output 5 normal open DO5_NO 6 Relay output 6 normal open DO6_NO 1 Relay output 7 normal close DO7_NC 2 Relay output 8 normal close DO8_NC J6 3 Relay output 7 common DO7_COM 4 Relay output 8 common DO8_COM 5 Relay output 7 normal open DO7_NO 6 Relay output 8 normal open DO8_NO 1 Digital circuits power 5V J10 2 Temperature signal 1 input TEMP1 4 20mA 3 Analog ground GND 1 Digital circuits power 5V J11 2 Temperature signal 2 input TEMP2 4 20mA 3 Analog ground GND 1 Data Carrier Detect DCD232 2 Receive Data RXD232 3 Transmit Data TXD232 J12 J18 4 Data Terminal Ready DTR232 5 Data Communication ground DGND 6 Empty 7 Request To Send RTS232 8 9 Empty 1 Ethernet TX NETTX 2 Ethernet TX NETTX 3 Ethernet TR NETTR J13 4 Empty 5 Empty 6 Ethernet TR NETTR 7 12 Empty 1 RS485 communication E485 J14 2 RS485 communication E485 3 Protection ground PGNG Avg 1 48V POWER 2 48V POWER Modem cable connection Modem is an optional accessory suitable for those who have purchased the modem remote monitoring system Modem configuration In modem mode Y should be selected for the communication parameter MODEM of the monitoring module If modem has the Automatic Answer indicator AA the indicator will turn on once modem and monitoring module are
154. le 24h 8 760h 720h monitoring module will start a short test whose operation time is set by the parameter ShortTest Duration By the end of the test if the difference in the discharge currents of batteries is bigger than the Alarm Current the battery discharge imbalance alarm will be raised This alarm will automatically end after 5min of delay Also you can end it by confirming it ShortTest Duration 1 60min 5min StableTest Enable Y N N The stable test is conducted with constant battery current whose value is set through the parameter StableTest Current If the parameter StableTest StableTest Current 0 9999A 9999A Enable is set to Y and the test will be started once the battery satisfies the test condition 3 The schematic diagram of the test function is shown below Test End Voltage pero Rectifier output Jsreached____p Batt Manually voltage lower than Battery Test End Cap is query Scheduled start battery voltage discharges reached Auto management KM battery test P Rectifier hot gt O standby Test End Time is reached gt Figure 4 3 Schematic diagram of the test function 4 7 6 Temperature Compensation Coefficient Parameters 1 The first page of the setting interface is shown below Temp 1 A Ambient Temp 2 Battery v 2 If the Temperature1 or Temperature2 i
155. le will generate alarm must be higher than that of an AC over voltage alarm the Under voltage alarm To When the system AC input voltage is lower than prevent miss alarm or abnormal Under voltage the setting value of the Under voltage alarm alarm function the user should votage SOV to 300V 180V 3 ee E alarm parameter the monitoring module will generate retain the default value an AC under voltage alarm When the AC voltage of the system work number is lower than the setting value of the s A 9 The setting value of Phase loss Phase loss Phase loss alarm the monitoring module will 50V to 300V 80V alarm must be lower than that of alarm generate a phase loss alarm If the AC voltage i Bea the Under voltage alarm of the standby number is low it will generate an alarm 3 phase Subject to It will set according to the actual configurations of the power system In a system AC input single phase the system with AC collecting board it can only select 3 phase and single phase In a system N A type setting without AC collecting board it can only select N A NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 101 6 7 5 DC Settings The setting interface is divided into three screens as shown in the following Shunt Enable None Coefficient 500A 75mV AMB TEMP Alarm 4 High 40
156. level 1 Status Including rectifier information active alarm information and alarm history information 2 Maintenance The maintenance operation can be conducted only when the battery management mode is set to Manual The maintenance includes battery FC BC and test load power off on battery power off on and rectifier voltage trimming current limit switch control and resetting NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 16 4 3 4 3 1 4 3 2 Chapter 4 Use Of Monitoring Module M500D 3 Settings Including the setting of alarm parameter battery parameter AC DC parameter rectifier parameter and system parameter Querying System Status First Page Of System Information 1 At the main menu page press ESC to return to the first system information page 2 If no operation is conducted on the monitoring module keypad for 8 minutes the LCD will return to the first system information page and shut down the back light to protect the screen Pressing any key will turn on the back light The first system information page contains the major system operation information including date time busbar voltage total load current system operation state normal or alarm battery management mode AUTO or MANUAL and battery state Among which the battery state include FC temperature compensation BC Cyclic Boost test short test and scheduled test The current time
157. meter shows the alarm name you Figures or A have actually defined In the system with an AC sampling board you can DI Name letters 10 at SPD Only most define by yourself the Dis of routes No 7 and No 8 inem In the system without an AC sampling board you can define all Dls the DI No No 1 8 2 The 8 corresponding connecting terminals queued up in the order that self defined the hardware switches are put es f digital alarm Alam High alarm upon high level Mode High Low High Low alarm upon low level Set according to the actual situation Set DI i 1 8 2 Serial No of the connecting terminal for DI input Name When there are DI alarms this parameter shows the alarm name you Figures or have actually defined In the system with an AC sampling board you can DI Name letters 10 at BCU A m t define by yourself the Dis of routes No 7 and No 8 In the system without an AC sampling board you can define all Dis Description of alarm control parameter function and value Alarm beeping duration means the alarm beeping time to be set by the user That is to say after new alarm occurs the module will generate alarm beeping The beeping time can be set according to the actual need Table 6 8 Description of alarm control parameter information Parameter Setting range Default value Value description Alarm beepin Normally on off 3 minutes poe Normally on Launch alarm beeping du
158. monitoring module can locate and record the system fault according to the collected data as well as raise audible visual alarms and output through dry contact according to the preset alarm level Meanwhile it reports the alarms to the host You can query historical alarms and active alarms through the LCD of the monitoring module Querying Active Alarm When a new alarm is raised and there is no operation on monitoring module keypad within 2 minutes the LCD of the monitoring module will prompt automatically the active alarm If there are multiple alarms in the current system you can query alarms through the following steps 1 At any system information page press ENT to enter the main menu 2 Use A or Y to select the Status submenu in the main menu and press ENT to confirm STATUS gt Rectifiers Active Alarm Alarm History NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 19 3 Press A or W to select the Active Alarm as shown in the above figure and press ENT to confirm 1 If there is no active alarm Active Alarm None will be displayed ACTIVE ALARM None 2 If there is any alarm the display will be like the following 1 Major Alarm ACTIVE ALARM AC1 Ph A Failure 3 040412 12 30 23 The information in the active alarm information pages includes a
159. monitoring module will generate alarm o battery charging over current dp boost If selecting Enabled the system meets the boost charging conditions and can be enabled boost charged H Yes No Yes Timing boost charging gt AI a abigd If selecting Enabled after the time in which the power system has been in the float Timing boost 48 10 8760 2400 charging paus reaches that set in the Timing pods charging period the monitoring charging period hours hows mogile will control the power System to conduct timing boost charging me battery Timing boosi charging voltage is setting value of charging voltage and the charging time is setting f 30 to 2880 720 value of Timing boost charging duration cnarging minutes minutes duration Boost charging 0 50 to conversion 0 80C 0 06C When the battery capacity reduces to the setting value of Boost charging conversion current capacity or when the charging current reaches the setting value of Boost charging Boost charging conversion current the monitoring module switches the system to the boost charging conversion 0 1 to 0 95 0 80 The battery charging voltage is the setting value of Boost charging voltage capacity CONSTANT dde boost charging 0 99C10 0 01C When the system is in the boost charging status if the charging current is as low as the current setting value of Constant boost charging current the system will automatically transfer CONSTANT
160. n Maior Critical gt SETTINGS Alarm level Relative device Signal name Sample time A gt MAINTENANCE RectifierGroup Rectifier lost 2007 08 16 11 07 50 gt QUERY 2 MAA ACU System Very Under voltage 2007 08 16 11 07 24 3 bA acUsSystem Ambient Temperature Sensor Fault 2007 08 16 11 07 14 En ACU System SPD Fault 2007 08 16 11 07 14 3 Site map zz SMDU 8 SMDU failure 2007 08 15 14 53 42 SMDU 7 SMDU failure 2007 08 15 14 53 01 SMDU 6 SMDU failure 2007 08 15 14 52 21 SMDU 5 SMDU failure 2007 08 15 14 51 40 A 4 SMDU failure 2007 08 15 14 51 00 2007 08 16 16 12 32 SMDU 3 SMDU failure 2007 08 15 14 50 18 grze O Internet Figure 5 17 LVD control NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 55 Click Setting button to set the parameters of SM DU For example the user can enable or disable LVD1 in the following screen Emerson EnergyMaster Sample Control Settina FLEX 48701 Signal name Value Unit Setting time value Set 2007 08 16 11 07 09 gt DEVICE EXPLORE 2 52 5 o 3 Lvo1 Enabled Disabled Disabled Battery Group 4 Lvo1 reconnect delay 2 min DC Distribution Battery Fuse Group 5 Lvo2 voltage 43 2 V 2007 08 16 11 07 09 LVD Group aces
161. nd vice versa lt FC BattTemp Center Temp Temp Comp Upon alarms such as Rect Com Failure DC Under volt and DC Voltage High the monitoring module will not do temperature compensation to the battery FC voltage Set this parameter according to the actual battery technical parameters Over 10 100 C 50 C When the detected battery temperature is higher than The High the Over the monitoring module will raise an alarm must not be High 10 100 C 50 C When the detected battery temperature is higher than higher than the the High the monitoring module will raise an alarm Over Low 40 C 10 C 0 The monitoring module will raise an alarm when the detected battery temperature is lower than the Low 4 7 7 AC Settings 1 The configuration interface is shown below OverVolt 280V LowVolt 180V UnderVolt 80V AC Input 3 phase Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save 2 The value description of the parameters is listed below Table 4 11 AC Setting parameter description Parameter Range Default Value description The monitoring module will raise an alarm when the The OverVolt must be higher OverVolt 50V 300V 280V AC input voltage is higher than the
162. ne and use ENT to confirm 2 The three submenus are shown below Alarm Type Alarm Mode Clear Hist Alarm Alarm Block DI No 1 N Level Major Mode HIGH Block Alarm Relate Relay 1 Set DI Name 2 N Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save 3 After setting the Set DI Name and confirming it the system will prompt you to name the DI DI Name SPD Use Y or A to change the number and or gt to move the cursor left or right Press ENT to confirm NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 35 4 The value description of the parameter is listed below Table 4 15 Alarm setting parameter description Parameter Range Default Value description 56 names of alarm Alarm Type Select those alarm events whose levels and relate relays should be reset events Alarms of Critical Major different types There are different audible visual alarm modes and callback modes for Level i 7 Observation None have different alarm events of different levels levels and Empty The corresponding dry contact will not output alarm information different Relate upon an alarm event Relate Relay Empty No 1 8 y pty Relay
163. nfiguration script Proxy server O Use a proxy server for your LAN These settings will not apply to dial up or VPN connections Figure 5 3 LAN setting step 2 In the preceding screen uncheck the proxy screen and click OK to finish the LAN setting Then input the IP address and press ENT the following Web interface pops up requiring user to enter user name and password Note that the user needs to do the above settings only when the M800D is connected to an intranet and the user has set that the access to the intranet must be made through proxy If the M800D is connected to Internet and the user computer is connected to the intranet the user cannot disable the proxy otherwise he cannot access the M800D NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 46 Chapter 5 Use Of Monitoring Module M800D F ACU Login Microsoft Internet Explorer IMHE REO FEO Ra LAG eG Om O HAG Pe re Sra DA HOME CD El http 142 100 6 45 cgi bin eng login htm lt A at S A he y English Chinese User admin Password e Product Number M800D ACU Serial 2005010101 Hardware Version 1 0 Software Version 1 41 Configuration Version 1 00 son Development All Rights Reserved El imi EZ Figure 5 4 Log in M800D In the preceding screen enter the user name default user name admin and password default password 1 to log in
164. nitoring Module M800D 77 Free text description of alarm Alarm type i e an integer specifying the type of alarm Alarm traps info The SNMP agent can send the active alarms to the specified NMSs and the user can define the lowest severity of the NMS accepted alarms R means OID is read only GET W means OID is writable RAW means OID can be read and modified GET SET The following part introduces how to access M800D with HP OpenView as an example Apply administrative authority In order to use NMS to manage the devices connected to M800D the administrative authority needs to be applied for the NMS that is add the NMS information to the access list of SNMP agent Add NMS through Web browser Refer to 5 3 6 Settings for the method of adding NMS 5 5 Parameter Setting Guidance 5 5 1 Rectifier Parameters M800D monitoring module could work with MINI SMALL MEDIUM LARGE capacity rectifiers For each type of rectifiers the following parameters should be set correctly Table 5 5 Rectifier Type Related Parameters Parameter Range Default Step change Rated Current NA 50 Double Rectifier Power type Single Double Small Single phase 7 AC phases Three phases Single Phase Rated Current should be set according to the actual power of rectifier Rectifier power and AC phases should be set according to the following table Table 5 6 Rectifier
165. nown or the failure lasts 1 Mains Failure too long a diesel generator is needed Before using the generator s power it is suggested to run the generator 5 minutes to stabilize the power output Check if the AC Over voltage point is too low Reset the value if too low A mild over voltage does not affect the system operation However the rectifier will stop operation when the mains voltage is more than 305V Therefore if the power supply is constantly over voltage the mains power network should be improved 2 AC Voltage High Check if the AC Uder voltage point is too high Reset the value if too high 3 AC Voltage Low When the mains voltage is lower than 176V the output power of the rectifiers will be derated If the power supply is constantly under voltage the main power network should be improved Check the system DC output voltage and value of Over set through the monitoring module If the set value is improper correct it Find out the rectifier that has caused the alarm First of all ensure that the batteries can operate normally Then switch off the AC input of all rectifiers Power on the rectifiers one by one If the over voltage protection is triggered when a certain rectifier is powered on that rectifier is the faulty one Replace the fault recitfier 4 DC Volt High 1 Check the system DC output voltage and value of Under set through the monitoring module If the set value is improper correct it
166. nsor Fault 2007 08 16 11 07 14 U System SPD Fault 2007 08 16 11 07 14 DU 8 SMDU failure 2007 08 15 14 53 42 DU 7 SMDU failure 2007 08 15 14 53 01 DU 6 SMDU failure 2007 08 15 14 52 21 DUS SMDU failure 2007 08 15 14 51 40 DU 4 SMDU failure 2007 08 15 14 51 00 DU 3 SMDU failure 2007 08 15 14 50 18 9 DU 2 SMDU failure 2007 08 15 14 49 38 10 DU 1 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 19 20 11 A Group Temperature sensor failure 2007 08 14 11 11 37 SS CC CESE l TE fi Internet Figure 5 20 Observation alarm In the same way click Major to display all the major alarms and click Critical to display all the critical alarms The observation alarm is displayed in yellow color The major alarm is displayed in pink color and the critical alarm is displayed in red color NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 57 To view the history alarm click the submenu History of Alarms history alarm query screen pops up In the screen select device first for example select All device enter the start time and end time for example from 00 00 00 August 16 2007 to 23 59 59 August 16 2007 click Query then the history alarm recorded from 00 00 00 August 16 2007 to 23 59 59 August 16 2007 for the device will be displayed Emerson EnergyMaster
167. odified user information Any user who visits user interfaces of the M800D such as LCD Web interface Console shall be assigned with one of the following 5 security levels user groups Table 5 3 User Security Levels Privilege level User group User authority Level A Browser All users can browse power information without any writing permission Level B Operator The operator needs to write one password for control power system The engineer needs to write one password to get the following access browsing control Level C Engineer modifying parameter downloading configuration file but except updating application an OS and modifying adding deleting user information user name user level password The administrator needs to write one password to get full access that include updating Level D Administrator application an OS and modifying adding deleting user information user name user level password Level E Hardware A HW switch is set that makes no writing of any kind possible to the product Click Edit PLC Config and then click Add button the following screen shows up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 61 AS Emerson EnergyMaster bd a ae put2 Outp 4870 O O p oR ACU System Sampling System Voltage ACU System Sampling System Voltage JACU System Control
168. of battery diverter the number of battery pack cannot be set to 0 Nominal 50 to 300Ah It indicates the capacity of single pack of batteries The user shall set in capacity 5000Ah accordance with the actual battery configuration NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 96 Chapter 6 Use Of Monitoring Module M501D Settin ae Parameter 9 Default value Value description range The type of battery has been reserved in the module system The type of Battery type 1to11 1 battery under current management can be configure d through the background 8 bit o sis Battery name Name different types of batteries for the convenience of identification character Battery shunt y o ad A 1 Yes According to the situation if there is diverter connected set to Available or Yes none set to Unavailable The monitoring module only implements management Battery shunt 2 None over the battery connected to the diverter If the di A set in th he di Diverter Subject to 500A 75mV or t e diverter parameter is sal to set int e system type setting the diverter aa the system coefficient setting field will display or the diverter coefficient is default Two coefficient 300A 75mV a ae type setting packs of batteries have same diverter coefficient LVD setting Function description LVD1 LLVD which means
169. oltage alarm point NetSure 701 A51 285 5Vac by default 10Vac lower than the AC input over voltage alarm point AC input under voltage protection point Default 80 5Vac configurable through monitoring module AC input under voltage protection recovery point Default 95 5Vac 10Vac higher than the AC input under voltage alarm point DC output alarm and protection DC output over voltage alarm point Default 58 0 0 2Vdc configurable through monitoring module DC output over voltage recovery point Default 57 5 0 2Vdc 0 5Vdc lower than the over voltage alarm point DC output under voltage alarm point Default 45 0 0 2Vdc configurable through monitoring module DC output under voltage recovery point Default 45 5 0 2Vdc 0 5Vdc higher than the under voltage alarm point DC output over voltage proteciton point Default 59 0 0 2Vdc configurable through monitoring module LLVD Default 44 0 0 2Vdc configurable through monitoring module NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 110 Appendix 1 Technical And Engineering Data Parameter category Parameter Description BLVD Default 43 2 0 2Vdc configurable through monitoring module Rectifier Current sharing The rectifiers can work in parallel and share the current The unbalanceness is better than 3 R48 1800 or 5
170. one level NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 39 Running Info DC DC Fuse Diesel Group w In above screen select DC and press ENT to display the detailed information signals of the DC distribution unit DC Voltage 53 5 V DC Current 50 0 A 3 Alarm information In the screen of Running Info press A or Y to select the sub menu of Active Alarm Running Info SMIO 8 Active Alarm History Alarm w Press ENT to activate the menu of Active Alarm the following screen pops up if the DC power has active alarms Active Alarm Observation 2 Major 2 Critical 2 In the preceding screen press ENT to view the detailed alarm information and one screen only displays one alarm 001 SM Battery 7 T Sensor Fault 050627 19 13 15 Observation In the preceding screen 001 is the alarm sequence number and 050627 19 13 16 is the time when the alarm occurs Press A or Y to view other alarms 002 SM Battery 7 Batt disconnect 050627 20 13 16 Observation If there is no alarm following screen pops up No Active Alarm In the screen of Running Info press A or Y to select the sub menu of History Alarm and press ENT to activate the menu the following screen pops up if the DC power has history alarms NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power
171. onfig package ias 2 A A 4 gt 2005 06 29 18 23 52 EXT 250000 STC E ECO auto E Float Charge logout NE JJ A Figure 5 32 Upload download screen 3 In Figure 4 32 click Browse to find the file folder where the file to be uploaded is located select the file to be uploaded and then click the button Upload to upload the file The M800D can download the configuration package file application program package file and language package file but the postfix of these files to be downloaded must be tar or tar gz The M800D can also download the file with the filename of MonitoringSolution cfg except the above files M800D cannot download other kind of files NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 65 The M800D can upload configuration package file and language package file In the screen shown in Figure 4 32 click Upload a box shows up requiring the user specify the directory where the uploaded file will be placed http 142 100 4 64 cgi bin eng p01_main_frame htm Microsoft Internet Explorer proporcionado por ynunet Fie Edt View Favorites Tools Help Back gt A A Asearch Favorites media 4 Eh Address E http 1142 100 4 64 cg binfenajp01_msin_frame htm Go Links gt amp Emerson EnergyMaster EMERSON D PLOR Upload Download file RectifierGro B
172. or None None means there is no corresponding dry contact For details see Alarm Settings Maintenance Note 1 This operation can be conducted only when the battery management is set to Manual 2 Be careful BLVD operations may result in power interruption 1 At any information page press ENT to enter the main menu 2 Press Y to select the Maintenance menu You cannot enter the system Maintenance menu if the Battery Management is set to Auto 3 Press ENT and input the correct operation password Press ENT again to enter the Maintenance menu Enter Password gt 123456 To input the password use A or Y to modify numbers and use lt or B to move the cursor After the input press ENT to confirm If the password is incorrect system will prompt password incorrect Note You can choose to enter the Maintenance menu by using either the user operator or administrator password for in this menu all users have the same authority NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 4 7 Chapter 4 Use Of Monitoring Module M500D 23 4 Press A or W to scroll to the operation page you need There are two pages MAINTENANCE RectTrim 53 5V Start BC RectLimit 110 Batt Reconnect Rect1 DC On Load Disconnecty 1D01234567 5 Press
173. ord Enter Password 123456 3 Press lt or gt to select the number of password digits Enter the password digit by digit using A or Y Press ENT to confirm and enter the parameter setting submenu SETTINGS Parameter Set A Alarms Settings DC Settings Battery Settings Rect Settings AC Settings v Sys Settings Users with different password levels have different authorities See the following table Table 4 5 Different password levels and relevant different authorities Level Authority Default password User Configuration of general parameters 1 Operator User s authority plus resetting system resetting password and modifying system type 2 Operator s authority plus modifying password of all levels controling alarm sound 640275 volume browsing system parameters that can be set only through the host Administrator 4 There are two pages of Settings Shift page by using Y or A and select the parameter by using Y or A Press ENT to confirm As shown in the above figure the monitoring module divides the parameters to be set into 6 kinds alarms parameter battery parameter AC parameter DC parameter rectifier parameter and system parameter Among which the battery parameters are divided into 5 kinds basic BLVD charging management battery test temperature coefficient and they are displayed in two pages as shown below
174. over discharge when the battery voltage is low The disadvantage of enabling BLVD is that when the battery voltage drops down to a certain value all the loads including non priority loads and priority loads will be cut off due to battery disconnection The advantage of software disabling BLVD is prolonging the power supply of priority loads The disadvantage is that software disabling cannot prevent unwanted power failure due to misoperation or power supply system failure Others Sharp object A Warning When moving equipment by hand protective gloves should be worn to avoid injury by sharp object ll Cable connection A Notice Please verify the compliance of the cable and cable label with the actual installation prior to cable connection Ill Binding the signal lines A Notice The signal lines should be bound separately from heavy current and high voltage lines with binding interval of at least 150mm Contents Chapter OVErViCWw ca a 1 1 1 Model TOF MAL ON ota A sit ence eee tence el east 1 1 2 Composition And Configuration cecceesceeeeeeeeneeeeneeeeeeeeeeseaeeseaeeseaeeseaeeseaeeseaeeseaeescaeeseaeeseaeeseaeescaeeseaeeseaeeseaeesaas 1 13 Features esa rec 3 Chapter 2 Installation InStructiON w uoiiiia ai a 4 2 1 Safety Regulations A dad 4 2 2 Preparatoria he eee e ited ned ee eee 4 2 3 Mechanical INStallatioms eene ets ceec dase E T ii 5 2 4 Electrical Installation cts scien
175. ow Table 4 7 LVD parameters description Parameter Range Default Value description LLVD Enable Y N y Select Y to enable LLVD function BLVD Enable Select Y to disable the BLVD function LLVD Mode Time voltage Voltage Select Voltage when the monitoring module detects that the battery voltage LLVD Volt 44 0V is lower than the prestet LLVD Volt the load will be disconnected and so is BLVD Volt aE ON 43 2V the battery when the battery voltage is lower than the preset BLVD Volt LLVD Time 300min Select Time when the discharge time reaches the preset LLVD Time the 3 1 000 min monitoring module will disconnect the load when the discharge time reaches BEVO time Spomin the preset BLVD Time it will disconnect the battery NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 27 4 7 4 Charging Management Parameters 1 There are 6 related pages as shown below Float 53 5V A Automatic Boost A TO BOOST A Boost 56 4V Y Current 80 Limit 0 100C10 Cyclic Boost Capacity 0 06C10 Over 0 300C10 w Y v v CONSTANTBOOST A CYCLIC BOOST A BOOST LIMIT A Current 0 01C10 Interval 400 h Time 300min Duration 180min Duration 300min v v Use Y or A to select one page or one of the parameters and lt or gt to select the parameter val
176. pensation coefficient The setting interface is divided into two screens as shown in the following Batt Settings Batt Settings gt Batt Selection gt Battery Test LVD Setting Temp Comp Charge 6 7 2 Alarm Settings The root screen of the setting interface is as follows Alarm Settings Alarm Level Alarm Mode Alarm Control There are 3 submenus Use Y or A to select one and use ENT to confirm The three submenus are shown below Alarm Mode Alarm Control Digital 1 High Voice Sign On Alarm Type Alarm Block Lev Observation Out Relay NC Name DI 1 Clear Hist N Name Level NA Block Alarm N Use Y or A to select one page or one of the parameters and or gt to select the parameter value Press ENT to confirm and save Description of alarm level parameter function and value Alarm type To select different types of alarms The alarm types are defined in the following table Table 6 5 Alarm type definition Leda Default Default Associated No Alarm name Alarm description alarm level associated relay setting parameters To block the alarms sent to the MC It functions in Observation 1 Alarm blocked id vauon N A Alarm blocked the EEM protocol alarm 2 Load bypass Overload short circuit manual disconnection or Critical disconnected alarm circuit fault alarm Load disconnected Critical 3 LVD1 L LVD l Manual control of load LVD alarm E ood enabled
177. pensation to the battery FC voltage Set this parameter according to the actual battery technical parameters Over When the detected battery alt 10 C to 50 C temperature is higher than the When the ee 100 C Over the monitoring module value of p will raise an alarm The High must not be higher than temperature High When the detected battery the Over temperature 1 9 10 C to temperature is higher than the temperature 50 C ere ae or temperature aiar 100 C High the monitoring module 2 is Battery will raise an alarm temperature Low er iat 40 C to The monitoring module will raise an alarm when the detected temperature 0 C a alarm 10 C battery temperature is lower than the Low 6 7 4 AC Settings The setting interface is shown as follows Over Volt 280V Low Volt 180V Under Volt 80V AC Input None When conducting setting use Y or A key to select one of screens or parameter items to be set and lt or to select the parameter value Then press ENT key to confirm and save The value of AC parameters is described as follows Table 6 14 Description of AC parameters Default ner Parameter Setting range Value description value When the system AC input voltage is over the Over voltage setting value of the Over voltage alarm The setting value of Over voltage ver votage Sov to 300V 280V g pas ae S NTAS 9 alarm parameter the monitoring modu
178. perature Digital4 Temperature Measure 1 Rect Failure Digital5 Temperature Measure 2 Rect Protect Digital6 Monitor Module Working Rect Fan Failure Digital7 Module Self Check Rect AC Derated Digital8 Module Manual Manage Rect Temperature Derated For the detailed description about the PLC configuration method please refer to the user s manual of the background Pctools NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 6 6 Chapter 6 Use Of Monitoring Module M501D 89 Maintenance Note This operation can be conducted only when the battery management is set to Manual The battery re connection operation may cause load LVD accident The user shall be prudent when conducting this operation The operation method is shown as follows 1 Press ENT key on any information screen to enter into the Main menu screen 2 Press the W key to select the Maintenance menu You cannot enter the system Maintenance menu if the Battery Management is set to Auto 3 Press ENT and input the correct operation password Press ENT again to enter the Maintenance menu Enter Password 123456 To input the password use A or Y to modify numbers and use lt or gt to move the cursor After the input press ENT to confirm After inputting the correct password the user can enter into the control screen If the input password is wrong the display screen w
179. power and AC phases Capacity type model Rectifier Power type AC phases MINI R48 800 R48 400 Single phase Single SMALL R48 1800 R48 1800A Single phase Small MEDIUM R48 2900U R48 3200 Single phase Double LARGE R48 5800 Three phases Double 5 5 2 Battery Management Parameters Battery test parameters Table 5 7 Battery test parameters Parameter Range Default Step change Constant Current Test Enabled Yes No No Planned Test Enabled Yes No Yes 7 Jan 1 0 O clock Apr 1 0 O clock Date of Planned tests Jul 1 0 O clock Oct 1 0 O clock Mains Failure Test Enabled Yes No Yes NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 78 Chapter 5 Use Of Monitoring Module M800D Parameter Range Default Step change Short Test Enabled Yes No Yes Max Difference Current For Short Test 0 to 1 0 Cio 0 05 Cio 0 01 Short Test Duration 1 to 30 min 5 min 1 min Test End Time 10 to 1440 min 180 min 10 min Test End Voltage 43 to 50V 45 2V 0 1V Test End Capacity 30 to 100 30 1 Test Current for Constant Current Test 10 to 10000 A 10000 A 10A Short Test Start Condition 0 to 365 Days 30 Day 1 Day 1 Test End Voltage Test End Time and Test End Capacity The M800D has battery test function and can record 10 groups of battery test data The test data can only be queried through MC First the user starts the battery test manually the M8
180. r connections input and output cable connection and connection between the power system and the system grounding Check the if the number and connections of the batteris are correct Check the polarity of the battery string with a voltmeter Make sure all the cable connections are firm and reliable Startup preparations OK Comments Make sure that all the MCB are switched off Measure the AC input voltage Make sure the input voltage is within the allowable range El Umin __V Check that the communication and alarm cables are connected to the signal transfer board El Check that the temperature sensor if any has been installed El Check that the battery string circuit is not closed El Connect the disconnected batteries to the battery string circuit El Measure with a voltmeter across the connection points of each battery and make sure that the polarity is El Umin __V right For a lead acid battery with 24 cells the voltmeter should read 2 0 2 1V cell or 48 51V battery If the voltage of certain cell is lower than 2 0V that cell must be replaced Check with an ohmmeter that there is no short circuit between the positive amp negative distribution bus E bars or between the positive amp negative battery poles Note Pull out all modules before the check and restore them after the check Startup OK Comments Switch on the system AC input MCB The green LED on the rectifier will be on and the fan will start running after a cer
181. r low No alarm None voltage level can be configured Al fined by users Whether the Digital8 LVD2 arm name can be as ined by 40 Alain alarm is triggered at high voltage level or low No alarm None voltage level can be configured NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 22 Chapter 4 Use Of Monitoring Module M500D 4 5 4 Changing Audible Visual Alarm And Alarm Call Back Plan There are different audible visual alarms and call back modes for alarms of different levels For the products in China market the alarming mode for major alarms and critical alarms are the same Table 4 4 Different alarms and call back modes for different alarm levels Alarm level Red indicator Yellow indicator Call back Remark Callback No can be set Callback No can be set No alarm Therefore changing the alarm level of different alarms may change their audible visual alarm mode and call back plan too Pressing any key on the monitoring module can silence the alarm sound The sound will disappear and alarm indicator will be off when all alarms are cleared You can configure how long an alarm sound will last or choose to make no alarm sound For details see 4 7 11 Alarms Settings 4 5 5 Changing Alarm Types Of Dry Contacts 4 6 As one of the alarm type parameter Related Relay refers to the serial No of the dry contract corresponding to the alarm type whose value is either 1 8
182. range of 80V 295V between the AC under voltage point and over voltage point If the power supply is constantly over under voltage the mains power network should be improved 10 Rect Fan Fails 1 Check whether the rectifier fan is still working 2 If the fan stands still pull out the rectifier to check whether the fan is blocked or not If yes clean it and push the rectifier back However if the fan still does not move after the rectifier is powered on replace it see Replacing rectifier fan in 6 2 Handling Rectifier Fault 11 Rect Not Respond Check if the communication between rectifier and monitoring module fails If the communication is normal reset the rectifier by pulling it out and pushing back in If the alarm persists replace the rectifier 12 Batt Over Temp 1 Check if there is battery internal fault If yes replace the fault battery 2 Check if the battery room temperature too high If yes cool down the battery room 7 2 Handling Rectifier Fault The indicator description and handling methods of R48 1800 rectifier R48 2900U rectifier and R48 3200 rectifier are the same Handling indicator fault The symptoms of usual rectifier faults include Run indicator green off Protection indicator yellow on Protection indicator blink Fault indicator red on and Fault indicator blink as shown in Figure 6 1 las E e in
183. ration control duration 10 minutes 1 hour 4 hours When the value yes is selected clear the alarm histor Clear alarm history Yes No No y y Block active alarm Yes No No When the value Yes is selected the active alarm will not be sent to the background EEM protocol 6 7 3 Battery Settings Battery selection Set the initial screen of the interface as follows NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 95 Bat Mode Manual Capacity 300Ah Select Type 4 Name Nihe Use Y or A to select the page and the parameter to be set and lt or gt to select the proper value for the parameter Press ENT to confirm and save After setting the Battery Type the following prompt will appear asking you to name a certain type of battery for the sake of identifying them Battery Name gt 12 To name a battery use A or Y to modify the number and or gt to move the direction Upon modification press ENT key to confirm If it is not required to set the battery diverter coefficient in the System Type parameter selection the next screen for the battery basic parameter setting is shown as follows Bat Strings 2 e Bat Shunt1 None Bat Shunt2 None If it is required to set the battery diverter coefficient in the System Type parameter selection the next screen for
184. rature Sensor Fault 2007 08 16 11 07 14 QUERY 2 oa acusystem SPD Fault 2007 08 16 11 07 14 3 ba sMmDU8 SMDU failure 2007 08 15 14 53 42 4 SMDU 7 SMDU failure 2007 08 15 14 53 01 Site map 5 SMDU 6 SMDU failure 2007 08 15 14 52 21 6 JOA sMDU5 SMDU failure 2007 08 15 14 51 40 Bale 7 h 4 SMDU failure 2007 08 15 14 51 00 8 SMDU 3 SMDU failure 2007 08 15 14 50 18 SMDU 2 SMDU failure 2007 08 15 14 49 38 SMDU 1 SMDU failure 2007 08 15 14 48 57 2007 08 16 16 23 12 a Battery Group Temperature sensor failure 2007 08 14 11 11 37 SE e TT CTI CTE CTA Figure 5 24 ESR configuration In the screen shown in Figure 4 24 the user can configure the phone number and protocol for communication Refer to the document of ESR private configuration for the meaning of each parameter Click the sub menu of User information following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 60 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster EMERSON FLEX 48701 WEB user management Current users gt DEVICE EXPLORE User name Authority admin Administrator Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group gt ALARMS Delete selected u _ Add new user Modify user gt SETTINGS Password Confirm Operator All a
185. re 2 5 MCB and terminal positions Connecting load cables Connect the negative cable of the load to the upper terminal of load MCB Connect the positive cable of the load to the DC positive busbar The terminals are as shown in Figure 2 5 Connecting battery cables Note 1 The batteries may have dangerous current Before connecting the battery cables the corresponding battery input MCBs or the battery cell connector must be disconnected to avoid live state of the power system after installation 2 Be careful not to reverse connect the battery Otherwise both the battery and the power system will be damaged 1 Connect one end of the negative battery cable to the upper terminal of battery MCBs Connect one end of the positive battery cable to the DC positive bus bar 2 Connect copper lugs to the other end of the battery cables Bind the connecting parts with insulating tape and put them beside the battery Connect the cables to the battery when the DC distribution unit is to be tested 2 4 2 Connecting Signal Cables S6415X2 user connector board cable connection Take the NetSure 501 A50 power supply system as an example the position of the user connector board is shown in Figure 2 6 Two communication interfaces are located in the panel Ethernet and RS232 interface The power supply system can be connected to Ethernet through the Ethernet interface or connected to modem through RS232 interface NetSure 501 A50 NetSure 501
186. rm should be cleared Repeat the same on the other load MCBs Remove all the battery input MCBs Keep only one rectifier in operation Through the monitoring module adjust the rectifier FC voltage to make it lower than the alarm point The alarm DC Voltage Low should be triggered Keep the rectifiers in operation Set through the monitoring module the battery management parameter to Manual Enter the maintenance menu at the monitoring module Select Disconnect and confirm it The battery protection contactor should be open and the BLVD alarm should be displayed at the monitoring module Note when the preceding alarms are generated the monitoring module will give alarms after approximately 3s Refer to 4 5 Querying Alarms And Setting Alarm Plans 5 2 3 Running Information or 6 5 Querying And Handling Alarms for methods of querying alarms System operation status check There should be no alarms during normal system operation The system operation status check can be conducted through the monitoring module For the parameter query method refer to 4 3 Querying System Status if using M500D 5 2 3 Running Information if using M800D Refer to 6 3 Querying System Status and 6 4 Querying Rectifier Status if using M501D OK Comments The system model is NetSure 501 A50 48V 30A SET NONE NetSure 701 A51 PS48300 3A 3200 48V 50A 300 NONE NetSure 701 A51 PS48300 3A 3200 X2 48V 50A SET NONE NetSure 501 A
187. rol signal and setting signal The following part introduces the device explore operation with rectifier and battery as examples Data browse control and parameter setting of rectifier 1 Rectifier group In the screen shown in Figure 4 6 click RectifierGroup following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 48 Chapter 5 Use Of Monitoring Module M800D Emerson EnergyMaster Control Setting FLEX 48 e Signal name Value Unit Sample time n Number of rectifiers 0 2007 08 16 15 56 46 2 Communicating Rectifiers 0 2007 08 16 15 56 43 WESSEL Melle 3 Valid Rectifiers 0 2007 08 16 15 56 43 4 Average voltage 0 0v 2007 08 16 15 56 43 5 Total current 0 0 A 2007 08 16 15 56 43 Battery Group DC Distribution 6 Used capacity 0 0 2007 08 16 15 56 43 Battery Fuse Group 7 Max used capacity 0 0 2007 08 16 11 07 22 LVD Group 8 Min used capacity 0 0 2007 08 16 11 07 44 AC Group SMDU Group ALARMS SETTINGS MAINTENANCE QUERY Site map All alarm Observatio mn Maior Critical inte Alarm level Relative device Signal name Sample time RectifierGroup Rectifier lost 2007 08 16 11 07 50 2 E Systern Very Under voltage 2007 08 16 11 07 24 ACU System Ambient Temperature Sensor Fault 2007 08 16 11 07 14 ACU System SPD Fault 2007 08 16 11 07 14 Sue
188. ry alarm If there is no history alarm following screen pops up No History Alarm 2 Equipment information If the equipment category has more than one piece of equipment the detailed equipment information will be displayed in two level menus For example the rectifier information is displayed in two level menus as shown below Running Info lt M800D System Rect Group Rectifier In the preceding screen select the sub menu of Rectifier and press ENT to display the first level Rectifier gt Rectifier 1 Rectifier 2 Rectifier 3 y In the preceding screen select a rectifier for example select Rectifier1 and press ENT to display the detailed information signals of the rectifier The second level of the rectifier information screen is shown in the following figures Rect SN Rect Current y 2054003799 0 00 A Rect Voltage AC Status 53 71 V ON In the preceding screen press or gt to view the information of other rectifiers such as rectifier2 The detailed signals are configurable Every piece of equipment has its own configuration file text file that includes all the information of the equipment signals Modify the configuration file can change the equipment signals to be displayed in the screen If the equipment category has only one piece of equipment the detailed information will only be displayed in a one level menu For example the signals of DC distribution unit are only displayed in
189. ry capacity in real time Through configuration at the host the remaining battery capacity can be displayed in the mode of percentage remaining Ah or remaining time etc The default is the percentage NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 4 Use Of Monitoring Module M500D 17 During the normal BC FC management the monitoring module regards the rated capacity as the capacity that each battery group can reach When the battery discharges the monitoring module will calculate the battery remaining capacity according to the discharge current discharge time and the preset battery discharge curve When the battery is being charged the monitoring module will calculate the real time battery capacity according to the detected charge current charge time and preset battery charge efficiency If the calculated battery remaining capacity is higher than the rated capacity the monitoring module will automatically change the calculated battery remaining capacity to the rated capacity AC information page 1 If the power system is a 3 phase input system with manual switchover between 2 AC inputs the voltage of the three phases will be displayed AC A Phase A 221V Phase B 225V Phase C 223V w 2 If the power system is a 1 phase input system with manual switchover between 2 AC inputs the single phase voltage will be displayed AC Single 221V 3 If there is
190. s 1 For the user level password by default 1 the setting interface is divided into two screens as shown in the following diagram Adrees 1 Set Date Text English 2005 06 13 Com RS232 YDN Set Time BaudRate 9600 v 17 30 30 When conducting setting use Y or A key to select one of screens or parameter items to be set and lt or to select the parameter value Then press ENT key to confirm and save When the communication mode is MODEM it needs to set Callback number and Callback times CallBack Time CallBack Phone1 3 012345678901234 CallBack Set 56789 Phone 1 To modify a Callback number use A or Y to modify the number and 4 or gt to move the direction Upon modification press ENT key to confirm 2 For the engineer level password by default 2 or administrator level password the default is 640275 use Y or A to select the following setting screen besides above all screens Init PWD N Init Param N System Type 48V 50A 500 NONE If resetting the system there will be an information prompt screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 103 Notice All Param lost ENT Continue ESC Quit 3 For the administrator level password the default is 640275 use Y or A to select the following setting screen in addition to the above screens Change Password User
191. s No 1 8 There will be a dry contact in the range of No 1 8 that outputs the alarm information upon an alarm event The 8 corresponding connecting terminals queued up in DI No No 1 8 1 Ir E q p the order that the hardware switches are put High alarm upon high level Alarm Mode High Low Low Low alarm upon low level Set according to the actual situation Effective only Set DI Name 1 8 1 Serial No of the connecting terminal for DI input to self defined When there are DI alarms this parameter shows the DI alarms alarm name you have actually defined In the system DI Name Figures or letters 10 SPD with an AC sampling board you can define by yourself at most the Dls of routes No 7 and No 8 In the system without an AC sampling board you can define all Dis lear Hi Clar His Y N N Y Delete historical alarms Alarm Block Alarm Y N N Y The active alarms will not be sent to the host valid in EEM protocol NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 36 Chapter 5 Use Of Monitoring Module M800D Chapter 5 Use Of Monitoring Module M800D This chapter introduces the front panel and functional keys briefly and expounds screen contents access method system controlling information querying parameter setting access M800D through web and NMS and parameter setting guidance 5 1 Operation Panel M800D Panel is illustrated in
192. s RS232 modem RJ45 and dry contacts which enables flexible networking and remote monitoring Perfect lightning protection at AC side Complete fault protection and fault alarm functions NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 2 1 2 2 Chapter 2 Installation Instruction Chapter 2 Installation Instruction This chapter introduces installation and cable connection Before installation please read through safety regulations and then follow this instruction to carry out the installation step by step Safety Regulations Certain components in this power system have hazardous voltage and current Always follow the instructions below 1 Only the adequately trained personnel with satisfactory knowledge of the power system can carry out the installation The most recent revision of these safety rules and local safety rules in force shall be adhered to during the installation 2 All external circuits that are below 48V and connected to the power system must comply with the requirements of SELV as defined in IEC 60950 3 Make sure that the power mains and battery to the system is cut off before any operations can be carried out within the system subrack 4 The power subracks shall be kept locked and placed in a locked room The key keeper should be the one responsible for the power system 5 The wiring of the power distribution cables should be arranged carefully so th
193. s set to Battery Temp you need to set the following parameters Center Temp A BATT TEMP ALARMa 25 C Over 70 C Temp Comp High 50 C 70mV C Str y Low 0 Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 30 Chapter 4 Use Of Monitoring Module M500D 3 The value description of the parameters is listed below Table 4 10 Temperature compensation coefficient parameters description Parameter Range Default Value description Temperature Temperature2 Ambient Tem None Battery Temp p None The Ambient Temp and Battery Temp refer to the measurement of the ambient or battery temperature sensor at the local power system None means there is no measurement input You should set this parameter according to the actual situation The temperature measurement data will be displayed in the system operation information screen When Temp Temperature1 or Temperature 2 is set to Battery Center Temp 10 C 40 C 25 C Temp Comp 0 500mV C 72mV C Batteries are sensitive to temperature To ensure battery s capacity and life its FC voltage should change together with the temperature lower FC voltage for higher temperature a
194. se 2 keys can move the cursor left or right 6 2 Power On Order After the system is powered on for the first time you should set the system type according to the actual configuration The monitoring module will restart after the system type is changed In that case you should re configure those parameters whose factory setting values are inconsistent with the actual situation Only after that can the monitoring module operate normally After configuring the system parameters you can carry out various operations directly without resetting the parameter values As for those important parameters related to battery management such as BLVD you should be fully aware of their influence upon the system before you change their values Note For the exact meanings of the abbreviations used in LCD displayer see Appendix 4 Glossary NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 83 1 The LCD will prompt you to select a language once the monitoring module is powered on English You can use 4 gt A or Y to select the language you want and press ENT to confirm If the user does not press any key for 10 seconds the monitoring module will select automatically the current language 2 The monitoring module will prompt you to wait and start initialization Waiting 3 The first system information page appears 2005 06 30 a 53 5V 50
195. se components will result in fatal injury Safety rules in the industry must be observed when installing the power system The installation personnel must be licensed to operate high voltage and AC power In operation the installation personnel are not allowed to wear conductive objects such as watches bracelets bangles rings When water or moisture is found on the Subrack turn off the power immediately In moist environment precautions must be taken to keep moisture out of the power system Prohibit warning label must be attached to the switches and buttons that are not permitted to operate during installation Al Danger High voltage operation may cause fire and electric shock The connection and wiring of AC cables must be in compliance with the local rules and regulations Only those who are licensed to operate high voltage and AC power can perform high voltage operations 11 Tools A Warning In high voltage and AC operation special tools must be used No common or self carried tools should be used Ill Thunderstorm A Danger Never operate on high voltage AC iron tower or mast in the thunderstorm In thunderstorms a strong electromagnetic field will be generated in the air Therefore the equipment should be well earthed in time to avoid damage by lightning strikes IV ESD Notice The static electricity generated by the human body will damage the static sensitive elements on PCBs such
196. sed on the Telecom protocol 1200bps 2400bps Make sure the baud rates of both th i BaudRate p 9600bps ise ll bd 4800bps receiving parties are the same 9600bps Set Date 2 000 2 099 Set the time according to the current actual time Set Time Hour min sec regardless of whether it is a leap year or not Init PWD sd ah Gees Bast Selecting Y can reset the user level and initialize Y N N Se administrator level passwords to the defaults password When the system parameters cannot be set normally O and the usual resetting methods do not work you can boss Init Param set the Init Param to Y and all the system initialize Y N N parameters will be restored to defaults Alarms may parameters be raised for the defaults may fail to meet the actual situation Set the parameters according to the actual situation then Thi h i h ae 48V 30A SET NONE p y Ca NetSure 701 A51 changed However when a new monitoring module is used its System Type should be set accordin F S4890073A 3200 to the actual ae i Operator System 48V 50A 300 NONE q a ili level or After this parameter is changed the monitoring above Type NetSure TOMAS module will restart automatically and other P548300 3A 3200X2 rameters of theinonitorin module will be 48V 50A SET NONE P 9 i NetSure 501 AAO changed to the defaults of the corresponding j Y hould ch 48V 30A 300 NONE system type You shou de ange some parameters according to the actual situation
197. ss ENT following screen pops up Alarm Voice Block Alarm On gt Normal Block Alarm Clear His Alarm Normal Yes Similar to modifying the alarm level user can modify the setting of Alarm Voice from On to Off 3 Min 10 Min 1 Hour or 4 Hour User can also modify the setting of Block Alarm from Normal to Blocked or from Blocked to Normal by using the same method If user executes the setting Yes of Clear His Alarm Note For Clear His Alarm there is only one option of Yes and there is no option of No all the history alarm will be cleared System parameters setting Parameter Set 4 gt SMIO 8 Alarm Param System Param w In the preceding screen move the cursor gt to System Param and then press ENT to set the system information parameters System information is displayed in following screens Language gt English LCD Time Zone GMT M800D supports 2 languages one is English and another is the local language which are configurable through above screen LCD Time Zone support the selection from GMT 12 00 to GMT 13 00 User can select the language in the preceding screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 44 Chapter 5 Use Of Monitoring Module M800D Set Date 2005 10 15 Set Time 20 09 09 In the preceding screen user can set
198. stem as an example the position of the connection terminals are shown in Figure 2 5 Connect the AC input cables to the AC input MCB Positive terminals Load MCB Positive terminals Load MCB Battery MCB al D 21 AC input MCB el aaa I aaa I 8181818 G i y ES D i Ye 1 E E EN f Figu
199. system without communication the alarm name can be modified according to the needs of the user After the name is changed the alarm named consulted from the active alarm or alarm history is the name after the change When the user changes the alarm name he she can select the relevant value to set digital name After pressing the ENT key for confirmation the monitoring module will pop up the following digital name input screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 94 Chapter 6 Use Of Monitoring Module M501D Digital Name 12 The setting method is as follows use A or Y to modify the digit or character and lt or to shift left or right After the modification press ENT key to confirm If or space is entered in the alarm name in default the name ends with the or space Table 6 7 Settings of alarm mode parameter Default note Parameter Setting range Value description value DI No No 1 8 4 The numbers refer to the 8 terminals which are sequenced following the hardware switch numbers MEA The value high means the high level alarm The value low means the mode High low Low low level alarm It shall be set according to the actual power system configuration Set digital i 4 e MEE 1to8 1 The no of the connecting terminal for inputting the power system digital F When there are DI alarms this para
200. t user control system e Change system parameters such as IP address time SNMP and EEM protocol settings user information e Change equipment name signal name and alarm level e Download and upload configuration files and update application software and local language package 5 3 2 Login To log in M800D double click the icon of IE to run the software click the menus of Tools Internet Options and then click the button Connections to pop up the following screen NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 45 Internet Options m General Security Privacy Content Connections Programs Advanced 7 ci To set up an Internet connection click Setup Dial up and Virtual Private Network settings Choose Settings if you need to configure a proxy server For a connection Local Area Network LAN settings LAN Settings do not apply to dial up connections LAN Settings Choose Settings above for dial up settings Figure 5 2 LAN setting step 1 In the screen shown in Figure 4 2 click the button LAN Settings to pop up the following screen Local Area Network LAN Settings Automatic configuration Automatic configuration may override manual settings To ensure the use of manual settings disable automatic configuration Automatically detect settings O Use automatic co
201. t Page Of System Information At the main menu page press ESC to return to the first system information page If no operation is conducted on the monitoring module keypad for 8 minutes the LCD will return to the first system information page and shut down the back light to protect the screen Pressing any key will turn on the backlight The first system information page contains the major system operation information including date time busbar voltage total load current system operation state normal or alarm battery management mode AUTO or MANUAL and battery state The current time is divided into two screens and displayed alternatively every two seconds one screen displaying the year month and day another screen displaying hour minute and second Year is displayed in 4 digit number other time units are displayed in 4 digit numbers In the system indirectly measuring the total load current the load current represents the sum of the module output current and battery output current The energy management mode includes manual mode and auto mode which can be changed through battery parameter setting Under manual mode if the bus voltage is lower than the DC voltage alarm threshold the system will switch to the auto battery management mode The battery status includes float charge boost charge cyclic boost charge test fast test and timed test 2005 06 30 18 15 10 a 53 5V 500A 53 5V 500A Alarm Alarm Auto Float v Auto Floa
202. t level Rectifier gt Rectifier 1 Rectifier 2 Rectifier 3 y In the preceding screen select a rectifier for example select Rectifier1 and press ENT to display the detailed information signals of the rectifier Second level Rect DC Ctrl Rect AC Ctrl gt Off gt Off Rect AC Ctrl Rect Reset Off Control Method NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 41 5 2 5 With control method of Rect AC Ctl as an example press A or Y to move the cursor to the setting of Rect AC Ctl and press ENT At this point this row is highlighted which indicates user can modify the setting User can change the setting from off to On by pressing lt or gt After setting press ENT following pops up Off ENT Confirm ESC Cancel If user presses ENT the control operation is implemented In the preceding screen press or gt to implement the control of other rectifiers such as rectifier2 Parameter Set In the screen of Main Menu press A or Y to select the sub menu of Parameter Set and press ENT to activate the menu following screen pops up Select User admin Enter Password Before setting the parameters select user first because different users have different authorities To select the user press A or Y to move the cursor to the second row press ENT to highlight edita
203. t w Note In this screen the user can adjust the LCD contrast 7 levels in total through the and gt keys In this screen the user can view the module serial number software version number and running time through the ESC key If there is no operation on the monitoring module in 8 minutes after the last key pressing operation the display screen will automatically return to the root screen of the information screen the back light will be switched off and the monitoring module will record the return time which can be viewed through the background tool Other System Information Pages The system information is shown in many pages The default page of the monitoring module after the system power on is the system information first page You can press A or Y to scroll up or down to view more operation information as shown in the following page Battery information page Batt 1 0A Remain 100 Batt 2 0A Remain 100 w Battery 1 battery 2 These two items indicate the battery currents connected to battery shunt 1 and battery shunt 2 respectively If the Bat shunt of certain battery pack is set as None the corresponding battery information screen will display not connected and there is no display of the remaining capacity If the system is not connected to the battery shunt and the number of the battery packs is set as 0 the relevant information will not be displayed Remaining capacity of bat
204. tain delay The monitoring module will show that the power supply voltage is 53 5V Check the system voltage and busbar polarity with a voltmeter The voltage difference between the E measured value and displayed value should be less than 0 2V Start and stop each rectifier of the system by unplugging and inserting each rectifier Check their output E voltages Basic Settings When the system is put into service for the first time the parameters of monitoring module must be set based on the actual system configuration such as battery number capacity user s charge current limit and other functional requirements Only after that can the monitoring module display system operation information and control the output For monitoring module parameter setting method see 4 7 Setting System Parameters if using M500D 5 2 5 Parameter Set if using M800D See 5 7 Setting System Parameters if using M501D NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 12 Chapter 3 Installation Testing OK Comments The system model has been set correctly in factory before delivery check that the setting agrees with y the actual system NetSure 501 A50 48V 30A SET NONE NetSure 701 A51 PS48300 3A 3200 48V 50A 300 NONE NetSure 701 A51 PS48300 3A 3200 X2 48V 50A SET NONE NetSure 501 AAO 48V 30A 300 NONE The battery string number set at the monitoring module should be the same as the number actually connecte
205. tery The monitoring module has the function of real time calculating the remaining capacity of the battery The result is generally an estimate value Through background configuration the remaining capacity of the battery may be NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 6 Use Of Monitoring Module M501D 85 displayed in the form of capacity percentage remaining Ah number and the remaining time The default display is the capacity percentage as shown in the above figure During the normal boost charge float charge management the monitoring module will take the nominal capacity of the single battery pack as the full capacity of the battery pack During the discharge of the battery the monitoring module will obtain the real time remaining capacity of the battery according to the detected discharge current and discharge time During the charge of the battery the monitoring module will obtain the remaining capacity of the battery by calculating the charged capacity according to the detected charge current and charge time If the calculated remaining capacity of the battery is higher than the nominal capacity the monitoring module will automatically calibrate the real time remaining capacity of the battery to be the nominal capacity AC information screen The maximal and minimal voltage values of all the rectifier AC inputs for the power system will be displayed Rect AC Vot a
206. the battery basic parameter setting is shown as follows Bat Strings 2 Bat Shunt1 None Bat Shunt2 None CO 50A 75mV Setting the battery diverter coefficient is to set the diverter model which consists of two settings and shall be set according to the actual situation For instance if the diverter setting is 500A 75 Mv it indicates the diverter with a nominal value of 500A outputs 75Mv voltage correspondingly The value of battery basic parameters is described in the following table Table 6 9 Description of battery basic parameters Setting range Parameter Default value Value description Normally it is in the auto mode In this case the monitoring module manages the overall power system in an auto manner including auto conversion of battery boost charging float charging auto power off of load and auto protection of battery In the manual mode it can conduct battery boost Management Auto 9 Auto charging float charging test and control the battery re connection LVD and Mode Manual f automatically implement two functions i e Protection of the battery boost charging time and capacity calculation In addition in case of DC under voltage alarm it can switch to the automatic management mode so as to prevent system abnormality due to incorrect manual control Quantity of Dia 2 The user shall set in accordance with the actual battery configuration If there battery pack is a setting
207. the operation Manual resetting Resetting can be done manually through the monitoring module or by removing the rectifier from system Output delay Output voltage can rise slowly upon rectifier start up The rise time is configurable Fan speed adjustable Rectifier fan speed can be set to half or full speed Temperature derating R48 1800 Temperature below 45 C outputs full power Temperature above 45 C there will be linear derating that is At 55 C output power is 1 600W At 65 C output power is 1 500W At 75 C output power is 800W At 80 C output power is OW R48 3200 Starts at 40 C Temperature below 45 C outputs full power Temperature above 45 C there will be linear derating that is At 65 C output power is 2 320W At 70 C output power is 1 450W At 75 C output power is OW R48 2900U At the ambient temperature of Below 45 C outputs full power 2 900W Above 45 C there will be linear derating that is At 55 C output power gt 2 320W At 60 C output power gt 1 450W At 65 C output power OW NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual At AC side protection features Appendix 1 Technical And Engineering Data 111 Parameter nen Parameter Description category Conducted emission Class A EN55022 Radiated emission Voltage fluctuation and flash EN61000 3 11 EMC Immunity to EF
208. the date and time For example move the cursor gt to 2005 10 15 press ENT to highlight the date and then press lt or to change the date after changing the date press ENT to validate the change IP Address Default Gateway gt 192 168 0 1 192 168 0 1 Subnet Mask Reload Config 255 255 254 0 w Yes M800D supports time setting and network function User can modify the M800D IP address and Subnet mask to allow other computers can access the M800D through IE NMS and HLMS Power limit setting Enter the parameter setting interface Parameter Set e M800D System Rect Group Batt Group wv In the above interface select M800D System and continue to press A or Wto show the screen of power limit function as show below P limit Enb Disable Over Voltage 58 50 Note User can set the power limit function to enable or disable If the power limit function is set to be Disable the diesel generator will not be controlled by M800D and has to be controlled manually 5 3 Access M800D Through Web 5 3 1 Overview Of Web Function Web is a remote user interface the user can e Browse the detailed status of each piece of equipment such as rectifiers batteries and AC unit e Send control commands and set parameters to equipment View the active alarms that can be automatically popped up if a new alarm comes e Query historical alarms historical signal data and logs battery test diesel tes
209. the monitoring module opens the LLVD contactor so that the non priority load will be powered off In this way the battery remaining capacity can sustain the priority load longer LVD2 BLVD which means the monitoring module opens the BLVD contactor In this way the battery will stop powering the load preventing over discharge The setting interface is divided into three screens as shown in the following LLVD ENABLED LVD VOLTAGE 4 LVD TIME LVD1 LVD1 44 0V LVD1 300min LVD2 LVD2 43 2 V LVD2 600min Mode Voltage wv Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save Note Normally the user shall retain the default values of parameters instead of performing additional setting The description of value of the LLVD load low voltage disconnection battery protection parameters is shown in the table below Table 6 10 Description of LLVD battery protection parameters Setting Default Value description range value Parameter If selecting Yes it indi he monitoring m le has function of mati LVD1 enabled selecting Yes it indicates the monitoring module has function of automatic load LVD XOSNO mee If selecting Yes it indicates the monitoring module has function of batter It INAI I 1 LVD2 enabled eet Bete x protection Time If selecting the According to voltage when the monitoring
210. the system In a system with load diverter it can be set only when the diverter option is set in the type setting system type 6 7 6 Rectifier Settings The setting interface is divided into four screens as shown below Rect Default Walk in Enable HVSD 59 0V N Float 53 5V Walk in Time 8s Interval Start Adaptive Os MVSD Time OverVolt Enable 300s N Fan Speed Use Y or A to select one page or one of the parameters and lt or gt to select the parameter value Press ENT to confirm and save The value of module parameter is described as follows Table 6 16 Description of module parameters Parameter genny paul Value description range value Modul ver When the module output voltage is higher than the The setting value of the Voltaga 56V to 59V 59V setting value of the Module over voltage parameter Default voltage must be the rectifier will generate a module over voltage alarm _ lower than that of the Default voltage 48V to 58V 53 5V Module over voltage NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 102 Chapter 6 Use Of Monitoring Module M501D Settin Default Parameter 2 Value description range value Output soft start 7 es Yes No No Load soft start function means that the rectifier voltage increases gradually from OV to the setting value of the Default voltage after the
211. tion Parameter Range Default Value description Over 58 5V The DC Over Voltage alarm will be raised when the system over voltage DC output voltage is higher than the value of Over The values of these Low 40V 60V 45 0V The DC low voltage alarm will be raised when the system three parameters low voltage DC output voltage is lower than the value of Low should be Over gt Under 45 0V The DC under voltage alarm will be raised when the system Low gt Under under voltage DC output voltage is lower than the value of Under High high 10 100 C 140 C The high temperature alarm will be raised when the detected The value of temperature ambient temperature is higher than the value of High parameter High Low low The low temperature alarm will be raised when the detected ee than 40 C 10 C 5 C y that of parameter temperature ambient temperature is lower than the value of Low Low Load shunt Y None None Set according to the system actual situation Dependent on system In the system with a load shunt this parameter can be set only when the Shunt Coeff f EN type parameter Shunt as a system type is set to Set 4 7 9 Rectifier Settings 1 There are three related pages as shown below Rect Over Volt RECT WALK IN 4 Fan Speed A 59 0V Enabled Full Speed Default Volt Time 8s HVSD Time 42 0V v CurrlnLim 30A y 300s v
212. to the boost charging after the time set in the Constant boost charging time The boost charging oo 10140 180 battery charging voltage is the setting value of Float charging voltage minutes minutes NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual 98 Chapter 6 Use Of Monitoring Module M501D Setting Default Value description range value Parameter During the boost charging process if the boost charging time reaches the setting value of Boost charging protection time or if there are abnormalities including AC power failure disconnection of battery branch and rectifier communication the monitoring module will automatically switch the power system to float charging with force in order to ensure the system security Boost charging 60 to 2880 1080 protection time minutes minutes The conversion of boost charging float charging is shown the following diagram When the charging current is higher than the boost charging conversion current it can switch to the float charging in 3 minutes e lt shall satisfy the timing boost charging condition before performing automatic test which shall be calculated 2 hours before the test If there is no boost charging record in 24 hours the boost charging can be conducted FC time longer than Scheduled BC Interval Pa Battery charge current E ge bigger than To BC Current N LAR Battery capac
213. ue Press ENT to confirm and save Note Generally you do not need to set the management value The defaults will do 2 The charging management parameter value description is listed below Table 4 8 Charging management parameter value description Parameter Range Default Value description In the FC state all rectifiers Float 53 5V eee er l 42V 58V voltage according to the set Float The Boost must be higher Boost 56 4V In the BC state all rectifiers output than the Float voltage according to the set Boost When the monitoring module detects that the battery charging current is higher than the Limit it will control the current of the rectifiers through Limit current limit 0 1 0 25C 0 1C 0 which it can limit the battery charging current C is the battery rated capacity generally set to 10 20 of the rated capacity of one battery string When the monitoring module detects that the battery charging current is Over over current point 0 3C4o 1 0C 0 300 pein 19 w 10 higher than the Over it will raise the battery charge over current alarm Automatic Boost Yes No y Select Y and BC will be conducted when conditions allow Cyclic Boost i Select Y and the monitoring module will control the system to enter Cyclic Boost Interval 48 8760h 2400h the Cyclic Boost when the FC time reaches the Cyclic Boost Interval
214. umber is 22 Figure 5 Schematic diagram of NetSure 701 A51 PS48300 3A 3200 1 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 3 Wiring Diagram 118 i for 3P N PE 380V SPD AC it i Scheme 1 for 3P N I A inpu Scheme 2 for 3P N PE 280V AC input Scheme 3 for 3P PE 220V SPD AC input L1 L2 L3 N E ti L2 L3 N L1 l2 L3 O O OO y E o 0 O A o J k PE a PE x PE o QF1 QF1 QF2 PE Bar pe A oa A PE Bar A A PE Bar A A O Q O Q O R j 1 i c to Connector fie N Bar to Connector i Board P py vi Board f LA A 4 E i A A 4 N gt A N to DC D A to DC A A N Note 1 The AC distribution has 6 schemes determined by user requirement Figure 6 Schematic diagram of NetSure 701 A51 PS48300 3A 3200 2 NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Appendix 3 Schematic Diagram 119 Multifunction Unit
215. well as the preventive maintenance of the system during system daily operation The maintenance personnel must have adequate knowledge about the power system Note The maintenance must be conducted under the guidance of related safety regulations Only the trained personnel with adequate knowledge about the power system can maintain the inner part of the subrack Handling Alarms The monitoring module alarms are classified in four types critical alarm major alarm observation and no alarm Critical alarm major alarm these two types of alarms have strong impacts on the system performance Whenever these alarms are generated users are supposed to handle them immediately The alarm indicators will be on and audible indication will be given Observation when this type of alarm is raised the system maintains normal output for a while If the alarm occurs during watch time it should be handled immediately If the alarm occurs during non watch time handle it during watch time The alarm indicators will be on when observation alarm occurs No alarm if alarms are set as no alarm by the users when these alarms occur no visible or audible indication will be generated and the system works normally The handling methods of normal alarms are given in Table 6 1 Table 7 1 System setting parameter description No Alarm Handling method If the failure does not last long the battery will power the load If the cause is unk
216. y Go J Links El Emerson EnergyMaster pa D gt DEVICE EXPLORE RectifierGroup Battery Group DC Distribution Battery Fuse Group LYD Group AC Group Diesel Group History alarm Control command log Batte testlog em Runtime log Disel testlog D ALARMS D gt SETTINGS D gt MAINTENANCE DE a ji 2005 06 29 18 32 53 mi E E RE FET EE tocal intranet Figure 5 35 Clear data In the preceding screen user can select System Runtime log to clear the log In the same way user can select History battery test log to clear the battery test log Click the sub menu of Restore default following screen pops up NetSure 501 A50 NetSure 501 AAO NetSure 701 A51 19 Inch Subrack Power Supply System User Manual Chapter 5 Use Of Monitoring Module M800D 67 Emerson EnergyMaster FLEX 48701 Restore default Restore default config The system will be reboot Restore default D gt DEVICE EXPLORE Reboot ACU Battery Group DC Distribution Battery Fuse Group LVD Group AC Group SMDU Group gt ALARMS D gt SETTINGS D MAINTENANCE LE D gt QUERY Site map iu All alarm Observation Major Critical Index i Alarm level Relative device Signal name Sample time 1 RectifierGroup Rectifier lost 2007 08 27 09 18 16 2 MONA 4cu System ery Under voltage 2007 08 27 09 17 51 CU System bient Temperature Sensor F
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