Power Factor Controller
Contents
1. 17 Fig 2 6 RAPIDUS Connection Diagram 18 Fig 2 7 A ee re rere 18 Fig 3 1 First Operation SECOS estantes pipas 20 Fig 3 2 Dil Lang Asbik Setting uuu essesesesssscscscsescsessssssssssssssssesesesesesesescscasscssssesees 20 Fig 3 3 Date l 5 usario online 21 Fig 3 4 Date Setting Example 21 Fig 3 5 Current Transformer RatiO cccsssssscssssssssssssssecsssssesscesssssessssseecsssesseasesses 22 Fig 3 6 Entering a Value in Virtual Keyboard 23 Fig 3 7 Voltage Transformer Ratio 24 Fig 3 8 S l JI uu nun RD uu 24 Fig 3 9 o A a 25 Fig 3 10 Startup Screen when the Connections Are Being Learned 25 Fig 3 11 Startup Screen after the Connections Are Learned 26 Fig 3 12 DE lli Men uu uu u pianos 26 Fig 3 13 Quick Setu MO 27 Fig 3 14 RAPIDUS Prompt for SAVING ccscsssecsssssecscsssesscsssssecsesssecsesssesscsssesessasseesees 28 Fig 3 15 NetWork Men Urea 29 Fig 3 16 Current Transformer Ratio Setting 29 Fig 3 17 Voltage Transformer Ratio Setting2. 38 A e e PU y 40 Ci Uar MOOO ria E ans 42 Manualidades 44 Target 1 Inductive Men secare na AR 44 Target 1 Capacitive Menu 44 Target 2 Inductive Men LLL IILI sskaisakiqa 44 Target 2 Capacitive Menu 45 Activation Time MEN encia aida 45 Deactivation Time Menu 45 Si PAIS MENU is u aun mu asua 45 AVG I Gi VIC scripts 46 FICA Steps MEN aspas aciis 46 LEME NO esa ny CT O 46 Lea COnN MEN asa a de ap 46 LCA SUA aaa ni A O 47 Sopian ms 48 Ret DIO assa A 48 REL NUM DS naaa 49 AUX IDU ME O PR PN 49 DO PO O aaa 50 NII Day MOOC ai UT UC na 50 Generator MOIE unn 50 Deco Men Useras E ad nt 50 Land OG Secas iaa 51 Contato cunda oras 51 PASS TIG I lil soria 51 New Password Setting cccsssssssssssssssscsescsescscsssssssssssssssssseseecsesescsescssscseseesees 52 DISPIA OUTS LINA escri 52 Display On Time Setting msc iria 52 ENS Melina 53 Sal Or dal Setenta 53 Stato Mont Set O unuwan na 53 A lI o AI 53 On E SOUTO e Po A da 53 A A Da 54 A A uns a 54 COmin u ication MENU asa oran needs 54 Bata Rate MN rentar dei 54 ENE A a sad acao 54 PPP u uuu stevie 55 ENS Alan MOBIL s E a 55 RAPIDUS Power Factor Controller 3 2 1 2 8 2 5 2 1 2 8 3 3 2 1 2 8 4 3 2 1 2 8
3. 75 PP UR OUR ORE RD 76 Alarmns Ment uuu uuu unan pis rte rateros 76 Prasei VA e eg cake ect nin riel iia 77 Phase MOU nu ccecssccssccsscssccscccsscsccsscsssessssscsesecccseccesccescsesssecsesesacesecseseensees 78 RAPIDUS Power Factor Controller 3 2 4 3 3 2 4 4 3 2 4 5 3 2 5 3 2 5 1 3 2 5 1 1 3 2 5 1 1 1 3 2 5 la 152 3 2 5 1 1 3 3 2 5 1 1 4 3 2 5 1 2 3 2 5 1 3 3 2 5 2 3 2 5 3 3 2 5 4 3 2 5 4 1 3 2 5 4 2 3 2 5 4 3 SECTION 4 SECTION 5 A A 78 SO M O E AEE E 78 Cl Me T E E AA O E E 2 78 Pa ISIS MEN ra E EA 79 NA A larisa 80 m e l 1 PVCU I A A UC 80 PH ETNICA uuu uuu da 80 pi C IK il nuansa cd 80 F i sis RA TM u u u us ads 80 ll nn Oo E m A 81 Liy MU u a oi 81 Monta MS earn anio 81 MARU Me earn 81 AVES MENU tren 81 ENSrO Mena ains 81 A A 82 Day A A 82 MONIY A CR en 82 FACTORY FRESE TS os erin ae 84 TECHNICAL SPECIFICATIONS 90 RAPIDUS Power Factor Controller FIGURES Fig 1 1 RAPIDU SD A ea 13 Fig 2 1 Placing RAPIDUS on the Panel 15 Fig 2 2 DS CUNT BAPIDU SR uu uy sis 16 Fig 2 3 Loosening of the Terminal Screws 16 Fig 2 4 Inserting Cable into the Terminal Block 17 Fig 2 5 Fixing the Cable to the Terminal Block
4. a P RAPIDUS Power Factor Controller SECTION 4 FACTORY PRESETS Factory Presets Unit Setting Values Averaging Time Off S N A Fixed Steps N A Step 1 Step 1 and 2 Step 1 2 and 3 Learn Settings EH On Step number number E 2 C C Off EEE Digital Input Settings Off Night Day Generator Mode Off Device Settings er New New Password Wee aaa Time Dependent DisplayOnTime On Time so noso Energy Settings saf O h e sano ho 0 E Communication Settings 38400 Baud Rate 38400 s Alarm Settings 2400 4800 9600 19200 ap JADINIES sutis Factor hutan SECTION 4 FACTORY PRESETS Factory Presets Unit Setting Values Energy V L N win fo om ON minme Jo ooo ON EE CO PRA E m reis o CU amo V L L vim fo ooo minme Jo ooo Di FAA CN CA CO CU amo Current IN TT TT O Di CO PO CI CA a m CS Di PANA m r I r rsaha r PC OOOO yes o s e gt DINIIS RAPIDO Power Factor pen SECTION 4 FACTORY PRESETS Factory Presets i Setting Values S Off Alarm Relay Relay1 e yes Do AT Cos PF Off Alarm Relay Relay1 Relay2 High Limit 0 000 Ea 0 000 1 000 Es a Step Off Alarm Relay Relay1 Relay2 E O A Ana ires O O TO Harmonics V Relay1 Alar
5. 30 Fig 3 18 Demand Period SettfIng u uu u asan a iiin 30 Fig 3 19 Po A Su uns 31 Fig 3 20 ENC POWT Menu O DS Soa 31 Fig 3 21 ENT Pe MENU Ra DR Os QUA CR aa 32 Fig 3 22 Predetinea MENU serian 32 Fig 3 23 O ig IU e g U ERR qP o RR 34 Fig 3 24 Compensation Menu 34 Fig 3 25 Compensation MENU uuu ai atan 35 Fig 3 26 RAPIDUS Mode Compensation Steps 36 Fig 3 27 RAPIDUS Asc Sequential Mode 37 Fig 3 28 RAPIDUS Des Sequential Mode 39 Fig 3 29 RAPIDUS UES AW MOGGE sas a ds a aaa i renee 41 Fig 3 30 RAPIDUS Circular Modan 43 Fig 3 31 Manual Mode Men U rana aaa doit 44 Fig 3 32 Averaging Time Menu 46 Fig 3 33 Fixed SRS ME ss a aaah da de 46 Fig 3 34 Connection KI u u OU O 47 RAPIDUS Power Factor Controller Fig 3 35 Learning Connections at the Startup 48 Fig 3 36 Waiting Time After Unsuccessful Connection Learning 48 Fig 3 37 lG y Ti A Ro O nce tease 49 Fig 3 38 l el NUM DEL ae es hen sansun uama apas 49 Fig 3 39 AME D 0 9 0 RIR uyu uu ee RR uuu nus 49 Fig 3 40 S
6. 63 Sy l ii illo N u uu cian 63 Password Menu 64 Restart E p Usando tatuada 64 LOL lili U SS er cone tiende 65 Mea re N iris 65 Instantaneous Menu 66 Fil Mellado 66 Imp Active Menu Imported Active Energy Menu 67 Exp Active Menu Exported Active Energy Menu 69 Ind Reactive Menu Inductive Reactive Energy Menu 69 Cap Reactive Menu Capacitive Reactive Energy Menu 69 Demand Menu 69 EUa O u casan EE E Ta EA 70 ACE ne UA lt A Uri ataca dea 71 REO Power MENU tido tte 71 ADO Power MEMU srta 71 Pnasoraladral MON Uns 71 o sanita Sd IRS USOS CS a 72 Table Menu uuu nan RP UNR 72 EO FNS N i azu aa nanum 73 Comp Compensation Menu 73 Switch Count Menu 74 Cons Time Meru uuu u acid pedia 74 DCM Dynamic Capacitor Monitorino 74 Learn A A A 75 Learned Conn Menu
7. Fig 2 3 Loosening of the Terminal Screws Make sure that the power is cut off before connecting voltage and current ends to RAPIDUS RAPIDUS Power Factor Controller SECTION 2 INSTALLATION Do not remove RAPIDUS current transformer connections without short circuiting the K L ends of the current transformer to somewhere else Otherwise dangerous high voltages may occur on the secondary ends of the current transformer The same applies to starting of the device Cable is placed in the relevant connection hole Fig 2 4 Inserting Cable into the Terminal Block After the cable is placed the screws are tightened and the cable is fixed Fig 2 5 Fixing the Cable to the Terminal Block Terminal is placed on its housing on RAPIDUS Consider this warning if RAPIDUS is used with current transformers Correct operating threshold values of transformers vary as per the type and size of the current transformers used Before applying the information given in the following warning check that the measured current value is higher than the current threshold specified in the user s manual of current transformer RAPIDUS Power Factor Controller SECTION 2 INSTALLATION 2 3 Wiring Diagrams A A A o Z ARSE A md Aux Relay Step Outputs 1 6 Step Outputs 7 Current Inputs Voltage Inputs Klemsan RAPIDUS Mode Input Fig 2 6 RAPIDUS Connection Diagram Fig 2 7 Dimensi
8. RAPIDUS Power Factor Controller TABLE OF CONTENTS SECTION 1 GENERAL INFORMATIONN 10 1 1 SM DOS a AE E E S 10 1 2 General WARIO Sms asnos 10 1 3 Receipt Control and Contents of the Delivery 11 1 4 RAPIDUS Reactive Power Control Relay 11 1 5 RAPIDUS Front Pan uk eno 13 SECTION 2 ERRA LAO e nao 15 2 1 Preparation for Installation 15 2 2 Placing ON the panel LLULLU asap 15 2 3 Wining Diagrams RE PNR nerean EATEN ATEA 18 2 4 Dimensions 18 SECTION 3 A An 20 3 1 First Power On Settings sintiendo diles 20 3 1 1 Duy LANG BEST rss ada 20 3 1 2 Das 21 3 1 3 MA as 22 3 1 4 Current Transformer Ratio CTR 22 3 1 5 Voltage Transformer Ratio VTR 24 3 1 6 SC IM oe tcc eee coerce ONP ss ss sa 24 3 1 7 l llu e e Ue A neat 25 3 2 o PP o A 25 3 2 1 o A e oo o o OR 26 3 2 1 1 OIC SS UNIV asadas 27 3 2 1 1 1 Language SC tU Oscars 27 3 2 1 1 2 DAM tata 27 3 2 1 1 3 ir I au o 27 3 2 1 1 4 A a 27 3 2 1 1 5 AE s nn s E S OI 27 3 2 1 1 6 Sep bo u A 27 3 2 1 2 SS UNO I u o OC
9. a P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 6 5 kVArh I Setting This tab is used for entering the initial value for inductive reactive energy D 3 2 1 2 6 6 kVArh C Setting This tab is used for entering the initial value for capacitive reactive energy D 3 2 1 2 7 Communication Menu RAPIDUS includes Modbus RTU communication protocol Settings related with Modbus protocol are made in this menu 3 2 1 2 7 1 Baud Rate Menu User shall select the desired value with up and down arrows and press OK RAPIDUS communicates with speeds of 2400 4800 9600 19200 38400 and 57600 bits second Settings gt Setup gt Communication Baud rate Slave Id Fig 3 46 Baud Rate Setting 3 2 1 2 7 2 Slave Id Menu This is the settings tab for entering the slave id number For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Slave Id 1 Fig 3 47 Slave Id Setting Maximum 247 devices may communicate over the same RS485 line Therefore slave id may be selected between 1 and 247 e P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 8 Alarm Menu User may navigate in the alarm settings menu using up and down arrow keys and access the contents of the sub menus of alarm menu by pressing OK SII Measure Comp Alarms Analysis Fig 3 48 Alarm Menu 3 2 1 2 8 1 Energy Alarm Menu This menu is used for performing the upper limit alarm setting
10. E E a ta EA tte oe ee ron AS SOR et CE EHI HEHTH HE HIHEE eeeh 207900000 DEA OO OLI LL A HE EHEHEHEH E EHEHEHE H H EE Ctd t tt tet tE pte Bea ai ae eel EI bd He Ha ds 5 i E ee a 5 5 i nf a pay Bae Hite ae gt ee Bee he EX pee gt a a E E EE EE TE T de A 4 ate AHHH eet ep tebe epee hehe heehee CIA I NETA ATA ATT AAA O DMA DEIA OIEA OIEA H H HH DAA tet be oe ee DR DAS ebro teo eeeh bae edit beba EEEH H EEH HEHEH H H H H DD SE DD O SD HEE HEHEHEHEH HED abeto tdo DER DR A IA H O a SEDE SESE DOSES Aid dd oo DAME E HEHEH OE HH D bdo bola dede dede bb See LOR MD HEHEH H D RdA HEE EHEHEHEH HEHEHEH H H EE bae bibi tido tt Et RE DDR HE DD HE On oe D edad teta CER DR H H HEHEHEHEH H H A AAA EEEIEE ES SEDE SESE ee eS Bh DR HH HH H H HFH HIHIHIHI LHI Ono ODE He E EHEH EH tet at HEH HEHEHEHEHE HEH HEHEH HEHEHEH eb H HE HH HHEH H H A batida DA OR HORE H HEHEHEH H A be EEE EHEH HEH HEH H H E H t dd SOE DDD EHEH HEE HEH HEE H SHESHE SD HEH HEHEH HERH HEH D bdo t t t CH HEHEH HHH H OH HEH H H D EHEH SHE H HE SHEHE Soe SHE H A beba di td OO cero PA a tet tet O eee EEE EEE EEE EE EEEE race rarer cere tt Ste ERR CARR AAA A AA A AAA ES AAN EE See EEB REED E EEEE E EEEEEEEEE En AA AAA AC E EAS fetter eter td A P E E EA E E F E A A EA a E nee an ree nee a rece nee E ne E Es E E E E ey q EM
11. RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 2 Step Menu This menu includes the sub menus below e Ent power Ent type e Predefined e Other SIE Measure Comp Alarms Analysis Ent power Ent type Predefined Communication Alarm Fig 3 19 Step Menu 3 2 1 2 2 1 Ent Power Menu Step powers learned by RAPIDUS are indicated in this menu Also user may enter change all step powers manually using this menu Settings gt Setup gt Steps gt Ent power oo BHO HORO DONE ox Low limit 0 00 High limit Step 12 1000 00 Fig 3 20 Ent Power Menu 3 2 1 2 2 2 Ent Type Menu Step types learned by RAPIDUS are indicated or user may set the step powers in this menu C is for 3 phase capacitor CY is for single phase capacitor connected to R phase C2 is for single phase capacitor connected to S phase a gt RAPIDUS Power Factor Controller SECTION 3 MENUS C3 is for single phase capacitor connected to TR phase Vis for 3 phase shunt reactor 11 is for single phase shunt reactor connected to R phase L2 is for single phase shunt reactor connected to S phase L3 is for single phase shunt reactor connected to T phase C1 2 isfor two phase capacitor connected to Rand S phases C2 3 isfor two phase capacitor connected to S and T phases C3 1 isfor two phase capacitor connected to R and T phases You shal
12. Rapidus opt demand React L ratio C Reactive power value to be compensated poin Step activation and deactivation operations are performed by starting from the step with Similarly RAPIDUS starts to deactivate a step after a deactivation time See 3 2 1 2 3 8 the lowest power ascending sequential When activation deactivat this interval activation and deactivation counters of RAPIDUS are not active one step is activated deactivated Then reactive power is calculated again If act RAPIDUS starts to act Deactivation time when the system react On the diagram above A B When the system IS The compensation program selected in the default settings factory settings of RAPIDUS 2 3 2 2 Ascending Sequential program RP JR 3 2 1 3 2 1 Y e O O p S LL dh O n Iie RADIDUS Power Factor Controller SECTION 3 MENUS deactivation demand is continued next step with the lowest power is activated deactivated e When the System is Inductive If a shunt reactor is activated RAPIDUS deactivates steps one by one until the demand is met starting with the shunt reactor with the lowest power Assume all shunt reactors are deactivated and system is still inductive RAPIDUS activates steps starting with the capacitor step with the lowest power e When the System is Capacitive If a capacitor is activated RAPIDUS deactivates all steps one by one unti
13. 3 3 Date Setting Example To select August 30th 2013 Date July 2012 Po July 2012 Y 06 WOOO Date KoE July Mee Date Slee August aay amp 068 WOOO Date UNA 2012 Date Noa 2013 OO DO WOOD gt Tarih 30 August 2013 WOOD Ye Fig 3 4 Date Setting Example ap RAPIDUS Power Factor Controller SECTION 3 MENUS 3 1 3 Time Time setting of RAPIDUS is performed here It is set as described on3 1 2 Date menu 3 1 4 Current Transformer Ratio CTR This is the settings tab for entering the current transformer ratio Current transformer ratio may be selected between 1 and 5000 RAPIDUS Virtual Keyboard shall be displayed when you press OK when this option selected Acilis Ayarlar Startup Settings Hactponku Dil Language Date Time VTR Step number Start Fig 3 5 Current Transformer Ratio Use arrow keys to navigate between the digits and OK key to enter the selected digit as a value If you enter an incorrect number select clr box and press OK Thus the incorrect number entered shall be deleted Current transformer ratio shall be entered correctly to ensure that RAPIDUS performs a correct compensation DINII ENT wy Power Factor Controller Example fT a 5 lel le elol for at Low limit 1 High limit 5000 o a papa fa HEHE E o MA ok at Low limit 1 High limit 5000 SECTION 3 MENUS
14. Hoo C088 ofar Low limit 1 High limit C HEHE Boao 0088 i E Low limit 1 High limit 5000 F gt E po H HEHE eol lok at Low limit 1 High limit po HEHE HEHE E NM efe Low limit 1 High limit Acilis Ayarlar Startup Settings Hactponku Dil Language Date Time CTR VTR English 30 August 2013 21 24 13 1 0 s number 1 O Fig 3 6 Entering a Value in Virtual Keyboard RAPIDUS Power Factor Controller SECTION 3 MENUS 3 1 5 Voltage Transformer Ratio VTR This is the settings tab for entering the voltage transformer ratio Voltage transformer ratio may be selected between 1 and 5000 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex If you will enter a number with a decimal place for voltage transformer ratio select the box on the Virtual Keyboard with arrow keys and press OK Acilis Ayarlar Startup Settings Hactponku Dil Language English Date 30 Aug Time 21 24 20 Step number Start Fig 3 7 Voltage Transformer Ratio Voltage transformer ratio shall be entered correctly to ensure that RAPIDUS performs a correct compensation 3 1 6 Step number You shall enter the 3 phase capacitor step number required for learning the connections from this menu A l Ayarlar Startup Settings Hactponku Dil Language Englis Date 30 Auc Time 21 24 CTR 20 VTR Step number Low
15. Settings gt Date Time Time 14 40 00 Date 30 August 2013 Fig 3 64 Date Time Menu 3 3 2 1 4 System Info Menu No setting is performed in this menu it is just for informational purposes KLEMSAN RAPIDUS Power Factor Controller Model 606000 Serial number 2359339 Language English Firmware version 1 00 PCB version 1_1 2 Build date 16 February 2013 Temperature 16 5 C Battery voltage 3 00 V Fig 3 65 System Info Temperature and battery voltage values may be read via RS485 RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 5 Password Menu If no password is entered only Date Time System Info and Password tabs shall be active under settings menu You shall enter a password in order to activate the other tabs Login success shall be displayed if the password entered is correct and Password mismatch message shall be displayed if it is incorrect For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex SII Measure Comp Alarms Analysis Password mismatch Fig 3 66 Password 3 2 1 6 Restart Menu This is used for restarting RAPIDUS Are you sure message shall be displayed if you press OK when the Restart tab is highlighted RAPIDUS is restarted by pressing OK again SU Measure Comp Alarms Analysis Are you sure Y Fig 3 67 RAPIDUS Restart RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 7 Default Setting
16. V17 hi limit V19 hi limit V21 hi limit 5 ooooooooo0o Fig 3 55 V Harmonics Alarm Menu Alarm relay Refer to 3 2 1 1 8 1 V L N Alarm relay THDV High Limit This is used for entering high limit value of total harmonic distortion in the voltage In order to set a THDV alarm user shall enter a number higher than zero as THDV high limit If zero is entered as the high limit value THDV parameter is turned off for alarms It may be selected between 0 0 and 100 0 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex THDV hi limit 20 0 Fig 3 56 THDV High Limit Setting a P ne RADIDUS Power Factor Controller SECTION 3 MENUS V3 V21 high limit This is used for entering high limit value of 3rd 5th 21st harmonic distortion in the voltage In order to set a V3 V5 V21 harmonic alarm user shall enter a number higher than zero as high limit If zero is entered as the high limit value V3 V5 V21 parameters are turned off for alarms It may be selected between 0 0 and 100 0 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex V3 hi limit 20 0 V21 hi limit 20 0 Fig 3 57 V3 V21 Harmonics High Limit Setting Delay Refer to 3 2 1 1 8 1 V L N Delay 3 2 1 2 8 14 Harmonics Alarm Menu Settings for the I harmonics alarms are the same for the settings for V harmonics 3 2 1 2 8 15 Temperature Alarm Menu This sub menu is used for temperature al
17. e Cap energy e VLL12 phase1 phase2 voltage e VLL23 phase2 phase3 voltage e VLL31 phase3 phase1 voltage IN Neutral current e Temperature e Battery When the battery voltage is less than 1 9V RAPIDUS gives a battery alarm When RAPIDUS gives a battery alarm please contact the authorized dealer you have purchased the device or nearest authorized dealer y 3 2 5 Analysis Menu This menu contains sub menus shown in Fig 3 88 Analysis menu parameters can be read from MODBUS table Analysis Fig 3 91 Analysis Menu Analysis menu parameters are not stored in nonvolatile memory Therefore all parameters pertaining to analysis menu are reset when the device is reset RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 5 1 Minimum Menu This menu includes hourly daily and monthly minimum values Analysis Fig 3 92 Minimum Menu Mi 3 2 5 1 1 Hourly Menu This menu includes minimum instantaneous values measured from the start of the hour to current time Analysis Hourly Phase1 i Daily Phase2 Monthly Phase3 Fig 3 93 Hourly Menu 3 2 5 1 1 1 Phase1 Menu Voltage V current I active power P reactive power Q apparent power S cos power factor PF and frequency F values are displayed B 3 2 5 1 1 2 Phase2 Menu Voltage V current I active power P reactive power Q apparent power S cos power factor PF and frequency F values are di
18. erate Et ERR ERR iy PRE ERRA Er ERRO PERO ER o E 5 E E E ii ta E E E E iy 5 3 E 5 E E E ii E E E E E e 5 EF FE FEH re Es EEE er EEE TEE FEH EEE Ea PERO pri peda E ey E E ta E E ta E E E E E E ta E E E F EPE E Et Ee E E ee EPE E ER 00 i E E E E E E E ta ta E E E ta E E E E EA E E s E E E fe td EEEE FREE tay RERS PERRI HERRI KERRI ERE EEE asa da HES Es RAEM E E ta Pa Ha ta E E E Es Pa tE ta E E E EH TIAS E on ao ISS HTHT bdo bebo EM MEM ME HED HEH HEH H H D EEH HESH EH H H SHEH HEHEH H H A bp tddi bee a SEE RD GE D DME EEE OE HH D Sate GH HEHHE MME HED HOH HE H H D CHEN HHIH H HE H HHEH H H A bb E DAA AL AA ee H A pe Se DS beba HEHEHEH DO DEDE H H H H DS GH SEIH IHE HHO IHE HEHEHEHEH HE D CAER HHH HE H H HEH H HA AEAEE EA ETATE AEAEE ETETEA GREH HEHEH H H HEHEHEHEH H H A AA Sena NES HERE SESE Se ETATE a HT O H H HHEH H HAH HIHIHIHI FEHI Ono oH EEH H EEH tet t H H H H O HEHEHEHEHE EE HIHI HEE SR at ed ed edo EEE 009000 en ah ED DMD MD HEHEH HO D PDR EDER DEE DES oder ba bdo bebo E HEM HE HED HEH HEH H H D DEEH HEC H H HEHEH H HA bb HEHEH ETHAEE EO DIO DD ea At bebo E EHE Et tet t H t H H HEt SHE OH O HEE HEHEH OH eeeh beta GOREH HEHHE De Heo ee H A pe diet eb O DE DA O HEH HEHEHEH DO DEDE H H H H HEH Rone On Hon on HE DE DM So
19. tE E E E ti ta E oe i as a i it sem as it a ss 5 EA E E EA E E A E zy a EA Ep E nee E an ne E re ree E E an ne ES tH He E ta E E HA tH s tA ta ret oe E E E EE oe He te E E Ex e ee e a te Ex E ee bt oe EA Es a Es ta EN E EN E a ra Es EA Es a a a Es ES Es E E E Es ES ES EA E do Pan sate oe sae an SP ama an a itt E E HEHEHEHEHE HD EE ee E E Ex ES Ex E E Es E Es E ees E E E E ane con ae E E E E E E E E te Es E E Ex Ee E E E E E ees E E E Es E E EEE EHER HEH H H R H E OE DM HA ta E E E HA HA ta E E E E Pa te ta E E E z SAS oy rat So an ee ati Re i ip ds ds A E pte a ay a TE E ta E Es E E E tn ta E E E ta a s dl z ra ahh EH H R H R E E E E ta E E ey q E Pa ta EM E E E E E PER TA DS Seat DD detecte bp paa EE EHEHEHEH HEHEHEHE H H EE t h H hetet tat ttt tet tet EA re ery Ee See on Es Ex E ee E ee Sr a E E E ee E ES Es OHH HEHEH SHH CH dd He Ha a Er is ta ta e ia ta ia t i ta z it ote EEEE EE TH EF TE EH E Eca EE Es ae E peda E ee
20. 0 and start of the day time is assigned Then when day of the moth is 1 and hour is 00 00 the value in the Curr month tab shall be recorded in the prev month tab Curr month shall be reset and starts to count from zero 3 2 2 2 2 Exp Active Menu Exported Active Energy Menu The explanations for Exp active menu are the same as 3 2 2 2 1 Measure gt Energy gt Imp Active energy menu 3 2 2 2 3 Ind Reactive Menu Inductive Reactive Energy Menu The explanations for Ind reactive menu are the same as 3 2 2 2 1 Measure gt Energy gt Imp Active energy menu 3 2 2 2 4 Cap Reactive Menu Capacitive Reactive Energy Menu The explanations for Cap reactive menu are the same as 3 2 2 2 1 Measure gt Energy gt Imp Active energy menu 3 2 2 3 Demand Menu Highest values of the averages occurred in the currents and powers during the set demand period are displayed on the demand menu Demand values are recorded with time information On the demand sub menus current and power values and sum of these values are shown for each phase EFEC Comp Alarms Analysis Instantaneous Energy QindP MI Demand Phasor diagram Harmonics Fig 3 75 Demand Menu a P RAPIDUS Power Factor Controller SECTION 3 MENUS Example Current signal averages and demand value for 15 minutes demand period are shown in the following graphic Amplitude A Waveform
21. 15 minutes 15 minutes 15 minutes Time minutes average value 3A average value 5A average value 4A average value 3A average value 5A average value 4A demand period 15 minutes Fig 3 76 Demand Example 3 2 2 3 1 Current Menu Demand values for each phase current and the demand value for the sum of the phase currents are shown Bottom tab of the demand values indicate the date and time they have occurred WGERUIGCE Comp Alarms Analysis Measure gt Demand gt Current Phase 5 0 02 44 59 10 10 12 Phase2 5 1 13 29 59 11 10 12 Phase3 4 9 14 29 59 09 10 12 Total 15 6 09 14 59 12 10 12 Fig 3 77 Current Menu Example Assume that the demand period is entered as 15 minutes and current value demand value and time are read as Phase1 5 0 A 02 44 59 10 10 13 Then the description for the value read is as follows e P RAPIDUS Power Factor Controller SECTION 3 MENUS On October 10th 2013 at 02 29 59 and 02 44 59 period demand value for 1st phase is 5 0 A Example Demand periods when the demand period is set as 15 minutes when system clock is 15 07 00 are shown below 05 07 00 15 14 59 1st demand period 15 14 59 15 29 59 2nd demand period 15 29 59 15 44 59 3rd demand period 15 44 59 15 59 59 4th demand period 15 59 59 16 14 59 5th demand period 3 2 2 3 1 1 Act Power Menu Demand values in the active power sub menu are as described in Measure gt Dema
22. 2 3 Predefined RAPIDUS uses these values if Predefined is selected a gt RAPIDOS Power Factor Controller SECTION 3 MENUS DCM Dynamic Capacitor Monitoring RAPIDUS follows the step values dynamically DCM algorithm runs on the background continuously When user selects DCM option on the Steps tab RAPIDUS uses the step values that it dynamically monitors and updates for compensation 3 2 1 2 3 2 Program Menu RAPIDUS has compensate with 6 different programs Rapidus Asc Sequential Des Sequential Linear and Circular options are programs with their own algorithms In the manual option operator may activate and deactivate any step RAPIDUS does nothing more than allowing manual access to the operator in this program Following features are available in all compensation programs other than Manual e User may enter any type capacitor or shunt reactor and order of steps to RAPIDUS e RAPIDUS does not use ignores the steps that it has learned as O or that is entered by the user as 0 e When it has learned a single or two phase step if at least one step is entered as single or two phase by the user RAPIDUS automatically runs on the Rapidus compensation program Settings gt Setup gt Compensation Entered Sela sc sequential Des sequential Linear Target 1 ind Target 1 cap Target 1 ind Target 1 cap Activation time Deactivation time Shift angle Aver
23. 5 3 2 1 2 8 6 3 2 zo 3 2 1 2 8 8 3 2 1 2 8 9 3 2 1 2 8 10 3 2 1 2 8 11 3 2 1 2 8 12 3 2 1 2 8 13 3 2 1 2 8 14 3 2 ZOO 3 2 1 2 9 3 2 1 3 3 2 1 4 3 2 1 5 3 2 1 6 3 2 1 7 5 2 2 DZ 2 3 2 2 2 3 2 2 2 1 3 2 2 2 2 2223 3 2 2 2 4 3 2 2 3 3 2 2 3 1 3223 EN 3 2 2 3 1 2 3 2 2 3 1 3 3 2 2 4 3 2 2 5 3 2 2 5 1 3 2 2 5 2 3 2 3 3 2 3 1 3 2 3 2 3 2 3 3 3 2 3 4 3 2 3 5 3 2 3 6 3 2 4 3 2 4 1 3 2 4 2 VEEN Alarm Men Uinsnansaisia nati idas 56 V L L Alarm Menu 58 Current Alarm Menu 58 P Alarm MENU uuu w tenets RN 58 OALE MO O L uuu A rer CE 58 SIMAO MENU PR RR RN 58 COSO Alarm Menu 58 PEA Men u ulla aasan O RN ei 58 Sep I Me insano te ria 58 IN Alarm Mek uuu en re dina dilata 59 EAST MN suscrita side sello ios 59 V Harmonics Alarm Menu 59 Harmonics Alarm Menu 60 Temperature Alarm Menu 60 dear NIP uuu olepe dida PT 61 Date Time Menu
24. 75 DEMmana Men u uuu una us 69 Fig 3 76 Demana EXaMpIe eros UR ete 70 Fig 3 77 CURE Unesco ino its 70 Fig 3 78 Phasor Diagram MENU nica andar 72 Fig 3 79 Harmonics Table MENU sanciones 72 Fig 3 80 ONG MENU are TS 73 RAPIDUS Power Factor Controller Fig 3 81 Fig 3 82 Fig 3 83 Fig 3 84 Fig 3 85 Fig 3 86 Fig 3 87 Fig 3 88 Fig 3 89 Fig 3 90 Fig 3 91 Fig 3 92 Fig 3 93 Fig 3 94 COMP MENU sisi jale 73 Site CON Laso 74 CO sc A A O A 74 LAICO Narda 75 Learned CON 75 A e o pro 76 Alarms Men Ulsa uuu tion tinca 17 Phasel EO araras a 77 PP E una S 78 Other MEN eee een ne adicto 78 Anal SVS CI taa 79 NUI MENU aos 80 A O asa has 80 ERTIY Mel soso 81 RAPIDUS Power Factor Controller SECTION 1 GENERAL INFORMATION SECTION 1 GENERAL INFORMATION 1 1 Symbols Caution This symbol indicates that there is cautionary information where it is used Danger of Electric Shock This symbol indicates that there is dangerous voltage or current 1 2 General Warnings Ensure that energy supply is cut off in the panel or in all relevant systems before attempting to connect the device to mains Installation and connections shall be performed by qualified persons with respect to the instructions on the user s manual Device shall only be activated after all connections are made We advise you to connect a 2 A fuse between the voltage inputs of the device and the mains and supply input a
25. 77 User may navigate between tables by pressing right and left arrows There are 6 table pages V1 V2 V3 11 12 13 Measure gt Harmonics gt V1 99 01 0 00 1 02 0 00 5 70 0 00 0 75 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 13 VEO v2 Fig 3 79 Harmonics Table Menu RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 2 5 2 Graphic Menu Current and voltage harmonics pertaining to each phase are displayed in graphic form in this menu See Fig 3 78 User may navigate between current voltage graphics by pressing right and left arrows There are 6 graphic pages V1 V2 V3 11 12 13 Measure gt Harmonics gt V1 AA 1 1 11 2 31 41 51 13 VOM v2 Fig 3 80 Graphic Menu 3 2 3 Comp Compensation Menu Sub menus shown in Fig 3 79 are available Alarms Analysis Fig 3 81 Comp Menu 3 2 3 1 3 2 3 2 3 2 3 3 RAPIDUS Power Factor Controller SECTION 3 MENUS Switch Count Menu This menu displays how many times RAPIDUS activated each step In order to clear change switching counts highlight the desired step and press OK Switch count is set between 0 and 10000 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Comp gt Switch count Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Step 8 Step 9 Step 10 Step 11 Step 12 O0000000000Pe Fig 3 82 Switch Count Conn Time
26. E E E 5 E E E E ta dl da E 5 E E E A ta E ta E E hi E E E 5 E 5 E 5 E E ta E E ca E dl E E E E ta 7 E ey q E Ph ta 7 E ey E E E feibebobesescucaroratacons SOSLNDIO USE IA IA YOH HOH SEA CORDEIRO CR H HEH H H A tia A HEHHE O A ee H A bae diet beba EHEHEH EEH HEHEH H H H H HEH BORO HS SA On eH So et tet E eeeh A AEAEE en ath H HEH H HEHEH HEH H H SE ee Sr DOME SE A DE HH D bdo O dede ette bah bed RM HEHEHE H H D EHEHEHAHAHAHHHEHHHHHHHHHHHHH Sr D beba SOR EEH HEHEH H H H H HEH H SHEH IHE HHO HED DM D CHER HHH Ree On Hee HA AE HEEE E ATEA AEAEE EE EATE SPEDE AR HEHEHEH H HEHEHEHEH H H A AAE EEEIEE EIEEE SEE DOES At DRESS DRE HE DE DD OH SCR DN tet t H H DD HEHEHEHEHE HEHHEHE HIHIHI SCH et COE eee EREE EER HEE 2209000 0200004 ED DMD PE HEHEH HO D PDR EDER HED DE DES cero oa bd do bebo dde SRR RD HH IA btp SD DA OH HHH RO HHHH O At PO a t t H H HEH 5 ta ta Hi E t E tH E E E eee creer Sees to ERES peas AAA eee Sees ria Seis ERR ERRA ERR DORES TEREFE ro AR AR dae concen ERERERE T T T T T T T T Eu T T T e aoe CO a ta Es ta Es Es E ta Es Es Es ca poy ta Trea oe prey soe TERE ta ree aoe ER sry eee EH h ote REA Ex ree ooo Es a hi ha A E Es E Es H E E E ae a 2 o gt a gt a css o gt a gt ae gt a gt a gt gt gt
27. Menu Connection times of the steps are displayed In order to clear change connection times highlight the desired step and press OK Conn time is set between 0 and 1000000 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Comp gt Conn time Step 2 min Step 3 min Step 4 min Step 5 min min min min min min min e Step 6 Step 7 Step 8 Step 9 Step 10 Step 11 Step 12 O090000000000 Fig 3 83 Conn Time DCM Dynamic Capacitor Monitoring Step values learned by dynamic monitoring can be followed from this menu These are observed after a certain amount of time due to the effects and nature of DCM algorithm There is no compensation program with a prerequisite for DCM DCM shall estimate step powers in each compensation program e P RAPIDUS Power Factor Controller 3 2 3 4 SECTION 3 MENUS First estimation results require at least 128x8 compensation switching Estimation values shall be updated at every 128 compensation switching after that Previous estimation power is the entered or learned step power values Learn Conn Menu Connections of current and voltage measurement inputs are learned RAPIDUS learns the connections by activating a 3 phase capacitor Relevant capacitor is determined with the Step number tab on the Quick Setup or Settings gt Setup gt Learn gt Learn Conn menu Alarms Analysis Fig 3 84 Learn Conn On the Step n
28. Start Example RAPIDUS Power Factor Controller SECTION 3 MENUS Curr day is the imported active energy value from the starting hour of the day to this moment Prev day is the active energy value imported during the previous day Current time RAPIDUS observation time reading time Previous day Current day Lo I a June 18th June 19th Juneth 08 00 08 00 16 47 Starting hour of the day 8 Fig 3 73 Day Start Example Curr month is the imported active energy value from the starting day of the month to this moment Prev month is the active energy value imported during the previous month Current time RAPIDUS observation time reading time Previous month Current month p A I April 3rd May 3rd May 17th 07 00 07 00 17 47 Starting hour of the day 7 Starting day of the month 3 Fig 3 74 Month Start Example Settings for start of day and start of month parameters which are important for the usage of energy menu page are performed on Settings gt Setup gt Energy menu a P RAPIDUS Power Factor Controller SECTION 3 MENUS Example Assume that start of the day time is assigned as 0 Then when the system clock shows 00 00 the value in the Curr day tab shall be recorded in the prev day tab Curr day shall be reset and starts to count from zero Example 4 n Assume that start of the month day is assigned as as
29. e THDV voltage total harmonics distortion in the voltage a P RAPIDUS Power Factor Controller SECTION 3 MENUS e harmonics up to 21st current harmonics e THDI total harmonics distortion in the current F frequency 5 3 2 4 2 Phase2 Menu Phase2 menu descriptions are the same as the Phase1 menu descriptions 3 2 4 3 Phase3 Menu Phase3 menu descriptions are the same as the Phase1 menu descriptions EY 3 2 4 4 Step Menu Descriptions of Normal and Alarm warnings are the same as Phase1 menu in Step menu RAPIDUS gives an alarm when any of the steps used in compensation gets lower than the value calculated with the low limit setting alarm limit Alarms gt Steps Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Step 8 Step 9 Step 10 Step 11 Step 12 3 2 4 5 Other Menu Descriptions of Normal and Alarm warnings are the same as Phasel menu in Other menu Alarms gt Other nder comp Normal Over comp Ind energy Cap energy VLL12 VLL23 VLL31 IN Temperature Battery Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Fig 3 89 Step Menu Normal Alarm Alarm Normal Normal Normal Normal Normal Normal Fig 3 90 Other Menu a P RAPIDUS Power Factor Controller SECTION 3 MENUS Following alarm statuses are observed in Other menu e Under comp e Over comp e Ind energy
30. inputs 11 k1 12 k2 13 k3 1 pc of 4 pin female terminal for voltage input V1 V2 V3 N 2 pcs of 7 pin female terminal for step outputs Com1 Com2 K1 K12 e 1 pc of RS485 3 pin female terminal B GND A e 1 pc of 2 pin female terminal for generator input GenA GenB 1 4 RAPIDUS Reactive Power Control Relay RAPIDUS is a multi function reactive power control relay It measures active reactive and total powers of the system that it is connected As a result of these measurements it activates capacitor and shunt reactors in the compensation panel Thus it compensates the system reactive power bidirectionally H M N M RAPIDUS counters record imported active exported active inductive reactive and capacitive reactive energy values All user actions can be performed easily using the 160x240 graphic LCD display and 6 keys on the front panel RAPIDUS has an isolated RS485 port It also has 2 alarm relay outputs RAPIDUS measures calculates e Current voltage and frequency e Active reactive and apparent power e Current and voltage harmonics up to 51st harmonics e THDV THDI e Power factor cosgY values for each phase a P RAPIDUS Power Factor Controller SECTION 1 GENERAL INFORMATION RAPIDUS has features such as e Learning connection methods e Learning step powers and types e Recording switching numbers and duty ratios for each step e Compensation possibility wit
31. it E E x y y E ES y maa ees ta ira ees pony see EEE Ea ERRA ER Ea Ea Ea SE pes ees pets ees pons free SE ee Ep E E E Se EN HA E ne EE te a Z i E ie E ta ta F E z EA A E ta En E En ia E ta E E E i Ea i E ta En tp En ne a E ta En Ea A ta En E E E E E E En Es En ES del ce E ta E E Es En EA E ta E e E E E ta E Ep Es e Ea E ta ta En E as Ee EHER HEH H H R H E Ha ta s E E Pa tE ta E E s Es Pe te ta E E E E DATE TS A DR ISS tibio hobby A AE eee hb tddi a aero CEE EE OE HH D Sat De MH H D CHH OR HE HE H HHEH H H A eb pa HELADO HOHH SA DA tit HEH HEH HEH t HEH H H H H HEH e te Pra E E s E E E s ERA ES E E Se Core HEHEH H HE H ey E ey ey A ha A E PRE Es Es E E E Es ES ES 55 aaa SOSA S EXA ta Es ta itki O Soot EEE Es A E eee ree EE Ea oon EHEHEH HEHEH H HEHE bed ion program that allows s ti hi Es oe ao 2 2 am bes 2 oe gt eee as activation time See 3 2 1 2 3 7 Activation COR DE SH AD FREE TEE EEEE TEE TEEF TEE FFE EEEE EEEE EEEE TEEF E A E E E E E E E E f ha E E ta EERE EH H H R H AE FERE ci a EEEE te es ete HEE E ae EEE pi ta A E a A E
32. limit 1 Fig 3 8 Step Structure RAPIDUS Power Factor Controller SECTION 3 MENUS 3 1 7 Restart RAPIDUS shall be restarted when you press OK when the Restart tab is highlighted Acilis Ayarlar Startup Settings Hactponku Dil Language English Date 30 August 2013 Time CTR VTR Sw number 1 O Initializing Fig 3 9 Restart RAPIDUS startup settings page is displayed when the RAPIDUS is powered up for the first time After RAPIDUS is restarted all settings including startup settings may be changed from the Settings menu 3 2 Startup Screen Following screen page shall be displayed after RAPIDUS is started Device shall learn the connections first and then the step powers respectively when it is started SIE Measure Comp Alarms Analysis RAPIDUS is learning connections Please wait Retry count 1 Fig 3 10 Startup Screen when the Connections Are Being Learned RAPIDUS Power Factor Controller SECTION 3 MENUS SITE Measure Comp Alarms Analysis 1 000 mm 1 000 mm 1 000 mm Fig 3 11 Startup Screen after the Connections Are Learned Multi selection menus are displayed on the upper part of the screen Upper left corner is used for displaying cos values of each phase Upper right corner displays capacitive and inductive ratios Status of the phases and compensation mode are displayed on the lower left corner and system clock is displayed on the lower right corn
33. relay symbol This symbol is displayed if 1st and or 2nd alarm relay is assigned to an alarm and an alarm is present in the system 1 indicates 1st alarm relay and 2 indicates 2nd alarm relay on the symbol Indicates that DCM is active RS485 communication symbol Cooling clock a P Je RADIDUS Power Factor Controller SECTION 2 INSTALLATION 3 SECTION 2 INSTALLATION This section contains information on the installation cable connections and connection methods of RAPIDUS 2 1 Preparation for Installation RAPIDUS that you have purchased may not include all hardware options specified in the installation manual This is not issue for the electrical installation Installation and connections of RAPIDUS shall be performed by qualified persons with respect to the instructions on the user s manual Do not operate the device before making the connections correctly 2 2 Placing on the panel RAPIDUS is placed vertically on the empty compartment on the panel 8 Fig 2 1 Placing RAPIDUS on the Panel After placing RAPIDUS on the panel tightening tool is installed and then secured by tightening its screw e P RAPIDUS Power Factor Controller SECTION 2 INSTALLATION Fig 2 2 Securing RAPIDUS RAPIDUS has female terminals with 2 5mm and 1 5mm screws Female terminal is removed on its housing on RAPIDUS removed from the fixed male terminal Screws on the female terminal are loosened
34. 28 3 2 1 2 1 PS EVO MEN Unne ip 29 3 2 1 2 1 1 A I lU sauces cedar A o ec qa E naa 29 3 2 1 2 1 2 NT MGT PR PARE DRE OP A E sasa 30 3 2 1 2 1 3 Demand period setting uU UI IIIa aasawa a e 30 3 2 1 2 2 EIL a uu uuu 31 3 2 1 2 2 1 ENE ONCE a DG E 31 3 2 1 2 2 2 ENT Type MEON eones 31 3 2 1 2 2 3 Predetined Men Usina datada 32 3 2 1 2 2 3 1 SUCH MENU sn atraca os 33 3 2 1 2 2 3 2 OWEN EE Rin 33 3 2 1 2 2 3 3 PTO ST MSN E puasa sansa 33 3 2 1 2 2 4 A e ne OO E E 34 3 2 1 2 3 Compensation Menu 34 RAPIDUS Power Factor Controller 3 2 1 2 3 1 DZ a DZ 3 2 1 2 3 2 1 3 2 1 2 3 2 2 3 2 1 2 3 2 3 3 2 1 2 3 2 4 3 2 1 2 3 2 5 3 2 1 2 3 2 6 3 2 1 2 5 3 3 2 12 0 4 3 2 1 2 3 5 3 2 1 2 3 6 Sel laz del 3 2 1 2 3 8 3 2 1 2 3 9 3 2 1 2 3 10 3 2 1 2 3 11 3 2 1 2 4 3 2 1 2 4 1 3 2 1 2 4 1 1 3 2 1 2 4 1 2 3 2 1 2 4 1 3 3 2 1 2 4 1 4 3 2 1 2 4 2 3 2 1 2 4 3 3 2 1 2 4 4 3 2 1 2 4 5 3 2 1 2 5 3 2 1 2 5 1 DZ E 3 2 1 2 5 3 DZ 3 2 1 2 5 5 3 2 1 2 5 6 3 2 1 2 6 3 2 1 2 6 1 3 2 1 2 6 2 3 2 1 2 6 3 3 2 1 2 6 4 3 2 1 2 6 5 3 2 1 2 6 6 DL lala 3 2 1 2 7 1 DZ 247 2 3 2 1 2 8 3 2 1 2 8 1 SE DOS u Pe uu n 34 Pine AA 35 FON CUS ROGI nta E sss 36 Ascending Sequential program 36 Descending Sequential Mode
35. 8 is selected as the structure and 10 kVAR is entered as the power RAPIDUS takes this value as the 1st step power and 8 is entered as the number Then step powers shall be as follows 1st step 10 kVAR 2nd step 20 kVAR 3rd step 40 kVAR Ath step 80 kVAR 5th step 80 kVAR 6th step 80 kVAR 7th step 80 kVAR 8th step 80 kVAR RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 2 4 Other Menu Discharge time is entered here RAPIDUS waits for the discharge time before reactivating a step that it has deactivated Settings gt Setup gt Steps gt Other ss Baa slei OORE Discharge time Low limit 3 1000 Fig 3 23 Other Menu 3 2 1 2 3 Compensation Menu Compensation menu is composed of the tabs shown in Fig 3 24 Settings gt Setup gt Compensation Program Rapidus Target 1 ind 1 000 Target 1 cap 1 000 Target 1 ind 1 000 Target 1 cap 1 000 Activation time 10 Deactivation time 10 Shift angle 0 00 Averaging time Off Fixed steps None Fig 3 24 Compensation Menu 3 2 1 2 3 1 Steps Menu RAPIDUS activates and deactivates steps when it performs reactive power compensation Step types and power values are determined with 3 different methods Entered User has entered step values manualy to RAPIDUS See 3 2 1 2 2 1 Ent Power Menu RAPIDUS uses these values if Entered is selected Predefined User has entered the step power as described in predefined menu See 3 2 1 2
36. AA e 50 Fig 3 41 CoOntrast o CLIO saint 51 Fig 3 42 Pa PIO usais tito 51 Fig 3 43 NEW PassWord ENUY incre 52 Fig 3 44 Display On TIME Setling serasa na dna 52 Fig 3 45 Fe Oy Men lennon 53 Fig 3 46 Bala Rate O l rinda mations 54 Fig 3 47 A a ii et Ria 54 Fig 3 48 nl Im MO Lu e E o DR 55 Fig 3 49 A A 55 Fig 3 50 V L N Ala e Td 56 Fig 3 51 Alarm y i g uu o ai ata 56 Fig 3 52 Alarm WTI SUN O sra oa 57 Fig 3 53 DE Unu A nana manas 57 Fig 3 54 Alami Omple e O PI 57 Fig 3 55 V Harmonics Alarm Menu LLULLA l ia 59 Fig 3 56 THDV HON LIMIT SELL ascone soraia idade ds 59 Fig 3 57 V3 V21 Harmonics High Limit Setting 60 Fig 3 58 No Alarm Time Condition 60 Fig 3 59 PP RR u uuu 61 Fig 3 60 dear Men U RU a 61 Fig 3 61 BOr TEN ri A sama 62 Fig 3 62 EEE E i o crm 62 Fig 3 63 Initial Value Entered After Clearing 62 Fig 3 64 DAGNE MENU u uuu u EE 63 Fig 3 65 NSO MO E E E E N E 63 Fig 3 66 PAS WOT O y II E EE E E EN 64 Fig 3 67 RAPIDUS ROSE aaa aa rer uuu n ee eee 64 Fig 3 68 ST AUT SUNOS aaron 65 Fig 3 69 MEG UR CU aaa oca ene 65 Fig 3 70 MVS el FOS Mel enemies 66 Fig 3 71 Imp Active Energy Page misil inch 67 Fig 3 72 aa A A e PA 67 Fig 3 73 Dar ota Ea sas a a da T E 68 Fig 3 74 Month Start Example uuu soda dae ssa 68 Fig 3
37. DUS Power Factor Controller SECTION 3 MENUS 3 2 5 4 1 Hourly Menu This menu includes counter values measured from the start of the hour to current time kWh imp active kWh E exp active kVArh inductive reactive kVArh C capacitive reactive counter values are displayed 3 2 5 4 2 Daily Menu This menu includes counter values measured from the starting hour of the day Refer to3 2 1 2 6 1 to current time kWh imp active kWh E exp active kVArh inductive reactive kVArh C capacitive reactive counter values are displayed 3 2 5 4 3 Monthly Menu This menu includes counter values measured from the starting day of the month Refer to 3 2 1 2 6 2 and starting hour of the day Refer to 3 2 1 2 6 1 to current time kWh imp active kWh E exp active kVArh inductive reactive kVArh C capacitive reactive counter values are displayed DIDIE RA Power Factor huta SECTION 4 FACTORY PRESETS 3 SECTION 4 FACTORY PRESETS Factory Presets Unit Setting Values Network Settings Ct Step Settings o oi o m A Predefined Power 0 00 1000 00 112 TT DischargeTime Time so E 000 Compensation Settings Rapidus Ascending Sequential Program Rapidus Descending Sequential Linear Circular Manual TE ET ST TT Trerget2ing 20 o o moto io jom Actvatintime fo E isso DeactvationTime fo o o sunan oo o sorna
38. Factor Controller SECTION 3 MENUS In order to store the new settings in the nonvolatile memory you shall return back to the Startup Screen from the tab where the changes are made using X key Press OK when Settings changed Save message is displayed on the Screen Thus the changes are saved and stored in the nonvolatile memory The changes shall not be saved and stored in the nonvolatile memory if X key is pressed Settings changed Save Fig 3 14 RAPIDUS Prompt for saving Chanoes shall be saved on the nonvolatile memory if you press OK when Settings changed Save message is displayed on the Screen The changes shall not be saved and stored in the nonvolatile memory if X key is pressed 3 2 1 2 Setup Menu Sub menus below are available under the setup tab e Network e Step e Compensation e Learning e Aux input e Device e Energy e Communication e Alarm e Clear User may navigate inside the menu using up and down arrow keys and access the contents of the menus sub menus under the setup menu by pressing OK RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 1 Network Menu This menu is used for performing the network settings SHE Measure Comp Alarms Analysis Settings gt Setup gt Network Network Steps ICompensation VTR Demand period dk Fig 3 15 Network Menu 3 2 1 2 1 1 CTR Setting This is the settings tab for entering the
39. N 3 MENUS 3 2 1 2 4 1 1 Learn at start On gt RAPIDUS learns connections automatically when it is turned on or restarted Off gt RAPIDUS does not learn connections automatically when it is turned on or restarted Settings gt Setup gt Learn gt Learn conn earn at start Off Step number 1 On Retry timer 5 Retry count 3 Fig 3 34 Connection Setup If the connections shall not be learned at start up we advise them to be learned manually This procedure is performed at Compensation gt Learn conn menu See 3 2 3 4 Learn Conn Menu Factory setting for connections is V1 V2 V3 11 12 and 13 RAPIDUS shall take a measurement with this combination in the initial start Current transformers may operate correctly when a current more than a certain value is taken from their secondary coils by their nature For a system where current transformer ratio CTR is 1 phase currents shall exceed 250 mA to ensure RAPIDUS starts to learn the connections If the current of any phase is lower than 250mA RAPIDUS cannot learn a connection automatically When the RAPIDUS is turned on if phase currents are higher than 250mA and active power is negative it shall consider the connections as incorrect Then it shall run the learn connections algorithm Assume that phase connections are higher than 250mA Even if the RAPIDUS connections are made incorrectly there may be conditions that active powers are positive In these cases RAPID
40. PIDUS gives an alarm Low Limit This tab is used for entering alarm low limit For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex In order to set an alarm for V L N values user shall enter a smaller low limit than high limit If low limit and high limit values entered are the same V L N parameter is closed for alarms High Limit This tab is used for entering alarm high limit For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex In order to set an alarm for V L N values user shall enter a higher high limit than low limit If low limit and high limit values entered are the same V L N parameter is closed for alarms RAPIDUS Power Factor Controller SECTION 3 MENUS Delay RAPIDUS waits for the delay time before giving an alarm when the related alarm parameter exceeds Low limit or High limit value Also RAPIDUS waits for the delay time again before cancelling an alarm condition when the related alarm parameter returns back in the limits It may be selected between 0 and 600 seconds For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex BEN 0 SEC Fig 3 52 Alarm Time Setting Hysteresis setting This is the tolerance value entered in Refer to the example below and Fig 3 51 for the usage method It may be selected between 0 0 and 20 0 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Hysteresis 0 0 Fig 3 53 Hysteresis Setting Example F
41. TAEA ELELEE EEEIEE E I EE pI tett HEERE ERE E AE EIA EEEIEE TEIHEA HERETTER A a ducsebeadedeesescaesesescneseses a baeduonsaceduoscncetwoscecatarses a davscbeadatersdatarsearsteraeaes e 505F50505250505250505250505257505 EEEE e R EE EEEE EEEE EEEE EEE ERER EE Ra RD P52805252505552505552525552505255 e bartucacacatucacscatacscccatarscs A dadsebeadedseseacnemeneseneseses a 5050605059 00 5056505065 0505250505 FEAIITFEEFITETE AIEEE ETETETT TITEELHTETEEETEE ETEEE a S05250505250505250505250505257505 A Hachohaneadbeaeataroeaecudaeaes a bavcupacaceeucscscaeucscecataraes e eE do a LOGS GUS aaa Ko o EHIE EEHEHE HEHE EEIEIEE Eis o TEE es ee ees ee oe EEE aes ee pees ee eens hee o Ed pes ee ees ee coe E Es ta Es ta Es Es E hi Es Es Es ive power cies idos saan RARE dect ia cite eee ane cht cet no Eee ci dos idos BERAR ee cease pont Cewe fee e dE ta E E E E E ta E ta ty E E E E E E E E E de it value decided for compensation by RAPIDUS calculated as per automatic C K ssesesececenataaeaececen asuetecescecasascesenatsaeteuetcs En o aora ASADE DO DO USADA NADO OSS neo pe EEE do do dba dado Ee BD corda t C D ES U e 2 ES O U ap N U N D lt a O ES O I K O N ES O O 49 N O U o U ap N E o 1 Rap M R a p im All steps the
42. US shall consider the connections as correct and shall not run learn connections algorithm Therefore it is important that connections are checked by the operator RAPIDUS Power Factor Controller SECTION 3 MENUS SITES Measure Comp Alarms Analysis RAPIDUS is learning connections Please wait Retry count 1 Fig 3 35 Learning Connections at the Startup SIE Measure Comp Alarms Analysis Failed to learn connections COMPENSATION WILL NOT BE PERFORMED Learning will be retried in 289 secs Total retry count 3 10 0 10 0 c c Fig 3 36 Waiting Time After Unsuccessful Connection Learning 3 2 1 2 4 1 2 Step number RAPIDUS learns the connections by activating a 3 phase capacitor We advise you to enter the step number that the capacitor with the highest power value is connected If the number of a step that is determined as faulty by RAPIDUS is entered to Step number setting an error warning message shall be displayed on the screen 3 2 1 2 4 1 3 Retry Timer If RAPIDUS could not learn the connection after making retries equal to the Retry number it waits for the set retry timer without compensating Then after the Retry timer it tries to learn the connections This cycle is continued until the connections are learned While waiting for the Retry timer RAPIDUS continues to make measurements and display these measurements on its screen but it does not c
43. aging time Fixed steps Fig 3 25 Compensation Menu isin tion IVa or two ired only ingle tial program ion is requ t is decreased under B CosPhi 0 950 Target inductive CosPhi 0 900 Target capacitive CosPhi 1 000 Demand ae Atte dde THREE PIPIS Ea e a td 8 A a ni a tA a A a x a tA A tA a AAR ah o ais a gt a css o 28 Ea gt ae gt a gt gt gt ingsequen Acne BOLADO MODE SDS E ORI APRENDA e E r rE TET EE EET EEEE EET FEEFEE electa becada piecsoesecascsensetces partoesesusecsonsecsearspereseres oido z ta ta Es A E E Es E Es Es i a E ta En E E EA ta E E E E E E Ep Es En EA del ce E ta E Ep Es En ES E ta ta E En E E ta E Ep Es e Ea E ta ta En E ra EHER HEH H H R H E Ha heee dde ted CA IAE MO MORO HHHH H HE DM HHH H H OA ES ble be ae dec CORDEL ESSES SESC PRA A ORT TREES RR DL HD EA E EH HEHEH H H neat Seo es DID DA E HA A COO COR E AA RH HEHE HE SHESHE SHESHE HEH AS OHO CRORE ESOM EA HM He HEE HOHEN as o SE DEEEH OR HEH H HEH HEHEHEH H A CE dd FEER EHEHEHEH HHEH HEHEHEHE H HEHEH ate Tr TE I Es T cae e Ive power requiremen SESE O EE EDO SE O DOE DA A O id hd 100 hh hh CHEHRE ED MD HHHH HE HHEH HEHEH H HHEH A bebo bebo tion closest to the measured EEES E 5 E 5 E E ta E E E E hi
44. all inductors are activated E E E A E AN ALARM WILL BE GIVEN m m Q Q Step 1 Step 2 Step 3 Step 4 Step 5 Fig 3 28 RAPIDUS Des Sequential Mode RAPIDOS Power Factor Controller SECTION 3 MENUS 3 2 1 2 3 2 4 Linear Mode All steps capacitor or reactor shall have 3 phases in linear program Linear program is used in panels with the step structure 1 1 1 1 The step activated first is deactivated last in linear program e If the System is Inductive If there are shunt reactors activated the number of shunt reactors that will the demand shall be deactivated If the system is still inductive although all shunt reactors are deactivated the number of capacitors required shall be activated e If the System is Capacitive If there are capacitors activated the number of capacitors that will the demand shall be deactivated If the system is still capacitive although all capacitors are deactivated the number of shunt reactors required shall be activated RAPIDUS Power Factor Controller SECTION 3 MENUS INDUCTOR B CAPACITOR FIXED DEAD ALL STEPS TO BE USED Compensation is ended as demand is 4K and lower than CK m Compensation is ended as demand is 0K and lower than CK w w m oo Compensation is ended as demand is OK and lower than CK AN ALARM WILL BE GIVEN m G ES Ss Ss s Fig 3 29 RAPIDUS Linear Mode a P Co
45. alues vary as per shift angle Example 1 Assume that the Cos value indicated by RAPIDUS is 1 000 When the user enters 20 as the shift angle RAPIDUS shall calculate Cos value as 0 940 inductive When the user enters 30 as the shift angle RAPIDUS shall calculate Cos value as 0 866 Capacitive RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 3 10 Averaging Time RAPIDUS compensates by averaging the system by the set time This set time ensures compensating by switching less steps in systems with less load changes Settings gt Setup gt Compensation Steps Entered Program Rapidus 2 Sec Target 1 ind 1 000 10 sec Target 2 ind 1 000 l Target 1 ind 1 000 Target 2 ind 1 000 Activation time 10 Deactivation time 10 sec Shift angle 0 00 Fixed steps None Fig 3 32 Averaging Time Menu 3 2 1 2 3 11 Fixed Steps Menu First three steps of RAPIDUS may be assigned as fixed steps On the main menu screen symbol is displayed next to the step assigned as fixed symbol SUITES Measure Comp Alarms Analysis coso 1 000 Omar E 10 Cos 2 1 000 m 0 5c Cosg3 1 000 IO Fig 3 33 Fixed Steps Menu 3 2 1 2 4 Learn Menu Settings for learning of steps and connections by RAPIDUS are performed from this menu 3 2 1 2 4 1 Learn Conn Menu Settings for learning of current and voltage connections by RAPIDUS are performed here a P RAPIDUS Power Factor Controller SECTIO
46. arm Menu This sub menu is used for Cos alarm settings Settings are the same for the settings for Alarm gt V L N menu Cos low and high limit values 0 000 1 000 3 2 1 2 8 9 PF Alarm Menu This sub menu is used for power factor alarm settings Settings are the same for the settings for Alarm gt V L N menu PF low and high limit values 0 000 1 000 3 2 1 2 8 10 Step Alarm Menu This sub menu is used for step alarm settings RAPIDUS gives an alarm when any of the steps used in compensation gets lower than the value calculated with the low limit setting alarm limit initial value x Low limit e P Alarm limit Step low limit values 20 0 gt 100 0 RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 8 11 IN Alarm Menu This sub menu is used for neutral current alarm settings Settings are the same for the settings for Alarm gt V L N menu IN high limit values 0 00030000 000 3 2 1 2 8 12 F Alarm Menu This sub menu is used for frequency alarm settings Settings are the same for the settings for Alarm gt V L N menu Frequency low and high limit values 35 0 70 0 3 2 1 2 8 13 V Harmonics Alarm Menu This sub menu is used for harmonics alarm settings User shall select the desired tab with up and down arrows and press OK Settings gt Setup gt Alarm gt Harmonics V THDV hi limit V3 hi limit V5 hi limit V7 hi limit V9 hi limit V11 hi limit V13 hi limit V15 hi limit
47. arm settings Settings are the same for the settings for Alarm gt V L N menu Temperature low and high limit values It may be selected between 20 0 and 80 0 If low limit and high limit values entered are the same RAPIDUS does not give an alarm Settings gt Setup gt Alarm gt Current Low limit High limit Delay Hysteresis Fig 3 58 No Alarm Time Condition ap RAPIDUS Power Factor Controller SECTION 3 MENUS If low limit entered is higher than the high limit Invalid limits Please check message is displayed on RAPIDUS screen Settings gt Setup gt Alarm gt Current Alarm rela Relay1 Low limit 0 0 E High limit Invalid limits Delay Please check Hysteresis OMS Fig 3 59 Invalid Limit a 3 2 1 2 9 Clear Menu Sub menus are displayed when you press OK when the Clear option selected User shall select the tab to be cleared with up and down arrows and press OK Relevant clearing operation is performed if you press OK when Are you sure message is displayed on the screen and it returns back without clearing when you press X Energy and demand values are cleared Learned connections are returned back to factory presets All tab performs all of the three operations above SITES Measure Comp Alarms Analysis Network Steps Compensation Are you sure Fig 3 60 Clear Menu Assume that for a RAPIDUS used for some time Measure gt Energy gt Imp A
48. ctive sub menu is like the one in Fig 3 59 Power Factor Controller SECTION 3 MENUS Measure gt Energy gt Imp active Index Curr hour Prev hour Curr day Prev day Curr month Prev month 267500 1 0 5 0 6 21 3 22 6 598 4 439 5 Fig 3 61 Before Clearing After the clearing operation is completed Measure gt Energy gt Imp Active sub menu Shall be like the one in Fig 3 60 Measure gt Energy gt Imp active Index Curr hour Prev hour Curr day Prev day Curr month Prev month 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Fig 3 62 After Clearing After the clearing operation a number different than zero may be seen for index parameters This number is the initial value entered by the user for the relevant index parameter For example assume that initial value for Setup gt Energy gt T1 kWh is entered as 7500 kWh Then after the clearing operation is completed Counters gt Rate 1 gt Imp Active gt Index value shall be 7500 kWh See Fig 3 61 Measure gt Energy gt Imp active Index Curr hour Prev hour Curr day Prev day Curr month Prev month 7500 0 0 0 0 0 0 0 0 0 0 0 0 0 Fig 3 63 Initial Value Entered After Clearing ap Ie RADIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 3 Date Time Menu Date Time is set in this menu For RAPIDUS Date Time Setting Refer to 3 1 4 Ex SIS Measure Comp Alarms Analysis
49. current transformer ratio Current transformer ratio may be selected between 1 and 5000 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Settings gt Setup gt Network Demand period Low limit High limit 5000 0 Fig 3 16 Current Transformer Ratio Setting Current transformer ratio shall be entered correctly to ensure that RAPIDUS performs a correct measurement RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 1 2 VTR Setting This is the settings tab for entering the voltage transformer ratio Voltage transformer ratio may be selected between 1 0 and 5000 0 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex If you will enter a number with a decimal place for voltage transformer ratio select the box on the Virtual Keyboard with arrow keys and press OK Voltage transformer ratio shall be entered correctly to ensure that RAPIDUS performs a correct measurement Settings gt Setup gt Network aiz l Demand period 5e 7 s Lefol Low limit Fig 3 17 Voltage Transformer Ratio Setting 3 2 1 2 1 3 Demand period setting This is the settings tab for entering the demand period Demand period may be selected between 1 and 60 minutes For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Settings gt Setup gt Network CTR 1 VTR 1 0 E Baa srie Hose oo Low limit 1 High limit 60 Fig 3 18 Demand Period Setting a gt
50. e For this feature to be active e Operator should change Mod tab of Settings gt Setup gt Aux input setting to either of the following Night day Generator e GEN input should be activated Inductive target 2 may be set between 0 800 and 1 000 a 2 RAPIDOS Power Factor Controller SECTION 3 MENUS 3 2 1 2 3 6 Target 2 Capacitive Menu RAPIDUS may also compensate as per a secondary cos value For this feature to be active e Operator should change Mod tab of Settings gt Setup gt Aux input setting to either of the following Night day Generator e GEN input should be activated Capacitive target 2 may be set between 0 800 and 1 000 y 3 2 1 2 3 7 Activation Time Menu RAPIDUS waits for the activation time before activating a step Activation time may be selected between 1 and 600 seconds 3 3 2 1 2 3 8 Deactivation Time Menu RAPIDUS waits for the deactivation time before deactivating a step Deactivation time may be selected between 1 and 600 seconds 7 3 2 1 2 3 9 Shift Angle Menu By entering the shift angle changes in reactive power transformer losses that occur before the RAPIDUS measurement point are compensated Shift angle is set from 45 to 45 RAPIDUS adds the reactive power that is calculates with the shift angle to the reactive power that it calculates by measuring the system voltage and current Then it calculates the cos value and compensates Index v
51. e Active power P values of phases and total active power P value e Reactive power Q values of phases and total reactive power Q value e Apparent power S values of phases and total apparent power S value e Frequency F values of phases e THDV values of phases and total THDV value e THDI values of phases and total THDI value Energy Menu This menu includes e Imported active e Exported active e Inductive reactive e Capacitive reactive energy values When an energy meter reaches the value 50000000 0 Mega it will start to count from 0 0 RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 2 2 1 Imp Active Menu Imported Active Energy Menu Imported active energy values are displayed Measure gt Energy gt Imp active Index 0 0 Curr hour 0 0 Prev hour 0 0 Curr day 0 0 Prev day 0 0 Curr month 0 0 Prev month Fig 3 71 Imp Active Energy Page Index is the imported active energy value from the time when the energy values are cleared to this moment Curr hour is the imported active energy value from the start of the hour to this moment Prev hour is the active energy value imported during the previous hour Current time RAPIDUS observation time Previous hour Current hour reading time O lt o o ss 13 00 14 00 14 26 Start of Start of previous hour current hour Fig 3 72 Hour
52. ee tet RRR eee HE H SHEHE EHE HEH HE A DHH HH H H E HEH HEH HE H HE nite epee MD dd tibia RAR EA Es EA Es E ES E Es EA E te Es EN E F TE ERA TEE ta ae ae Es pass cpa ae aa a a aaa pa papa pas ae Sea a a ao ae parr ane Es E Es E E E E E ey Es E EE a a Ee ta ta ta ta E E E E ta K a E E ta ta E E E E E It activates the step comb Ra Riad Sasha ce oe ido ba cane POPO chit pee poo pee aa penne Riad BARRAR EA pee pont ee SPSS RAS interval A RAPIDUS does not compensate When the system ivate a step after an time when the system reactive power requirement reaches over B point a te ree ta qara E ee Se ERES Era EEE SE ER Ea PEER Re ay sate aes E REA ERIC re cj i ta i c ty cj i ta i ta a ta sa i ta gt is the only compensat Fig 3 26 RAPIDUS Mode Compensation Steps Swa a 2 a E a 2 Ea S a a x 2 Ea 3 a si a E a Es c ta ta ta E ta E ta ta A E ta E ta E ta E da E ta EA Er ta E ta E t E ta E E E EA E E EA E A E a A A EA O U U UN amp N U UN 49 ES oa m ap gt 1G K N O U ap P ES O ES O E nee E an ne E re nee E E E ne Es Es Pe E tA E E E z HA Ha ta E e interval corresponding to the
53. ep closest to the demand is activated deactivated e If the System is Inductive If a shunt reactor is activated steps are deactivated one by one until the demand is met starting with the shunt reactor closest to the demand If system is still inductive although all shunt reactors are deactivated and there are capacitor steps that are not active steps are activated one by one until the demand is met starting with the capacitor step closest to the demand e If the System is Capacitive If a capacitor is activated steps are deactivated one by one until the demand is met starting with the capacitor closest to the demand If system is still capacitive although all capacitors are deactivated and there are shunt reactor steps that are not active steps are activated one by one until the demand is met starting with the shunt reactor step closest to the demand E RADIDUS Power Factor Controller SECTION 3 MENUS INDUCTOR CAPACITOR FIXED DEAD ALL STEPS TO BE USED STEPS TO BE USED IN COMPENSATION Example Demand 46K inductive Minimum step power 5K CK 5K 2 3 3 3K Compensation is ended as demand is 1K and lower than CK A A A Demand 16K Demand 6K Demand 1K Step 1 Step 2 Step 3 Demand 100K Capacitive X X gt x X o o LO LO E o sf i 4 Sy v Demand is 35K and higher than CK however demand is continued although S S 5 all activated capacitors are deactivated and
54. er User may navigate on the menus on the upper side of the screen using left and right arrow keys and access the contents of the menus by pressing OK 3 2 1 Settings RAPIDUS settings are made from this menu If you press OK when the settings tab is highlighted sub menus shall be displayed as shown in Fig 3 12 Sub menus below are available under the settings tab e Quick setup e Setup e Date Time e System info e Password e Restart e Default Settings SUITE Measure Comp Alarms Analysis Fig 3 12 Settings Menu a 2 RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 1 Quick setup Menu Sub menus below are available under the quick setup tab e Dil Lang Asbik e Date e Time e CTR e VTR Step number Settings gt Quick setup Date 30 August 2013 Time 21 24 13 CTR 1 VTR 1 0 Step number 1 Fig 3 13 Quick Setup Menu 3 2 1 1 1 Language Setting Language is selected in this tab See 3 1 1 3 2 1 1 2 Date Menu Date setting is performed here See 3 1 2 3 2 1 1 3 Time Menu Time setting is performed here See 3 1 3 3 2 1 1 4 CTR Current transformer ratio is entered here See 3 1 4 3 2 1 1 5 VTR Voltage transformer ratio is entered here See 3 1 5 3 2 1 1 6 Step number RAPIDUS activates a 3 phase capacitor when it learns the connections You shall enter the 3 phase capacitor number to be used for learning the connections in this menu a P RAPIDUS Power
55. h 6 different programs e Determination of whether the activated step is faulty and dynamic step monitoring e For active reactive inductive and capacitive energy values of index hourly previous hour previous day monthly and previous month e Compensation in 12 steps e Current and voltage harmonics measurement up to 51st harmonics e Testing possibility for relays and steps e Automatic calculation of C k ratio Also RAPIDUS has the following features e Setting an alarm for various measurement paramateres e Provision of counter monitoring by assigning initial counter values e Prevention of unauthorized usage with 4 digit password input e Battery supported real time timer and memories RAPIDUS Power Factor Controller SECTION 1 GENERAL INFORMATION 1 5 RAPIDUS Front Panel O oOo N ON WN BP W Na 12 13 14 15 SUITE Measure Comp Alarms Analysis Cos 1 1 000 mm Cos 2 1 000 m 10 0 c c c Pp 10 0 10 0 10 0 c c c QUERO 9 49 49 43 43 44 45 Fig 1 1 RAPIDUS Display Menus Cos values for 3 phases Monthly average inductive ratio Monthly average capacitive ratio Number of steps Step power Step type Presence absence of currents and voltages for voltages order of phases Selected compensation mode Alarm status symbol displayed when an alarm occurred in the system Temperature alarm status symbol displayed when an alarm occurred in the system Alarm
56. h limit 600 Fig 3 44 Display On Time Setting e P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 6 Energy Menu This menu is used for entering the initial energy values The settings in this menu are used for synchronization of system electricity counter and RAPIDUS counters User shall select the desired energy value with up and down arrows and press OK Settings gt Setup gt Energy Start of day 0 kWh 0 0 kWh kWh E 0 0 kWh kVArh l 0 0 kVArh kVArh C 0 0 kVArh Fig 3 45 Energy Menu 3 2 1 2 6 1 Start of day setting This is the settings tab for entering the time for start of the day Start of the day time may be selected between 0 and 23 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex 3 2 1 2 6 2 Start of month setting This is the settings tab for entering the day for start of the month Start of month day may be selected between 1 and 28 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex The settings listed below between 3 2 1 2 6 3 and 3 2 1 2 6 6 are used for synchronization of system electricity counter and RAPIDUS counter Each of them may be set between 0 0 and 20000000000 0 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex 3 2 1 2 6 3 kWh Setting This tab is used for entering the initial value for imported active energy 3 2 1 2 6 4 kWh E Setting This tab is used for entering the initial value for exported active energy
57. hing power 1250VA Number of Steps Can be selected between 1 and 12 Target Cos Interval 0 800 1 000 ind cap can be selected with 0 001 steps CTR Can be set 1 5000 VTR Can be set 1 5000 Demand Period Can be set 1 to 60 minutes User Interface KO y 1 anasu aa 6 keys with ESD protection E D A E Self illuminated 160 x 240 graphic a P ne RADIDUS Power Factor Controller SECTION 5 TECHNICAL SPECIFICATIONS Communication Isolated RS485 Port 1 Channel ESD and over current voltage protected programmable 2400bps to 57600 bps baud rate 2000VRMS isolation Operating Temperature 20 C 70 C Storage Temperature 30 C 80 C Relative Humidity Maximum 90 Dimensions W144 x H144 x D78 Protection class IP40 Power Consumption lt 10VA Klemsan www klemsan com tr
58. l check whether RAPIDUS has learned step types correctly from this menu If RAPIDUS has not learned step types correctly perform one of the following RAPIDUS is commanded to learn the steps again See 3 2 3 6 Learn Steps Menu Step types are corrected manually See Fig 3 21 Settings gt Setup gt Steps gt Ent type 0000000000 OE Step 12 Fig 3 21 Ent Type Menu y 3 2 1 2 2 3 Predefined Menu Step settings may be performed as per a predefined structure Relevant settings are performed on the following three sub menus specified below for predefined menu Settings gt Setup gt Steps gt Predefined Structure 1 1 7 I py R R R N ERS NN NNN Ir C HH I 1 1 I N OONN ON IN RR I I 1 I Fig 3 22 Predefined Menu e gt RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 2 3 1 Structure Menu Following options are available on the step structure e 1 1 1 1 1 1 1 e 1 1 2 2 2 2 2 1 2 2 4 4 4 4 e 1 2 3 3 3 3 3 1 2 4 4 4 4 4 1 1 2 4 4 4 4 e 1 2 3 4 4 4 4 e 1 2 4 8 8 8 8 e 1 1 2 3 3 3 3 y 3 2 1 2 2 3 2 Power Menu Power of the first step is entered in kVAr RAPIDUS calculates the step powers after the first step as per the selected template selected in the structure menu 3 2 1 2 2 3 3 Number Menu Number of steps in the template selected in structure is set in this menu Example Assume that 1 2 4
59. l the demand is met starting with the capacitor with the lowest power Assume all capacitors are deactivated and system is still capacitive RAPIDUS activates steps starting with the shunt reactor step with the lowest power INDUCTOR B CAPACITOR FIXED DEAD ALL STEPS TO BE USED STEPS TO BE USED IN COMPENSATION EXAMPLE SYSTEM INDUCTIVE 46K CAPACITOR DEMAND AVAILABLE Minimum step power 5K CK 5K 2 3 3 3K AE y Compensation is ended as demand is 1K and lower than CK Demand 41K A A A Demand 31K Demand 16K Demand 4K Step 1 Step 2 Step 3 Step 4 Step 5 SYSTEM CAPACITIVE 100K INDUCTOR DEMAND AVAILABLE Demand is 35K and higher than CK however demand is continued although all activated capacitors are deactivated and all inductors are activated A AN ALARM WILL BE GIVEN A Demand 90K Demand 75K Demand 55K Demand 45K Step 1 Step 2 Step 3 Step 4 Step 5 Fig 3 27 RAPIDUS Asc Sequential Mode a gt RAPIDOS Power Factor Controller SECTION 3 MENUS 3 2 1 2 3 2 3 Descending Sequential Mode All steps capacitor or reactor shall have 3 phases in descending sequential program RAPIDUS performs activation deactivation operation starting with the step closest to the demand When activation deactivation is required only one step is activated deactivated Then reactive power is calculated again If activation deactivation demand is continued next st
60. m Relay e oe E CAT for jo Aium fo o ooo vehiuimt 0 E E a o jo Vm for jo vistitimt for jo virtitint fo C vomm fo fr jo Vm CN m Harmonics Off Alarm Relay Relay1 Relay2 ap Off RAPIDUS Power Factor Controller SECTION 4 FACTORY PRESETS Factory Presets Unit Setting Values ms eooo CAS CO CU jo OHum fo o ooo iim CO CUL CECI fo o ooo sim for jo im fo fr foco um fo romeo Diju o HT m Temperature E CO CE mome Jo e asma Di E j hye o A C RAPIDOS Power Factor Controller SECTION 5 TECHNICAL SPECIFICATIONS SECTION 5 TECHNICAL SPECIFICATIONS Supply VoltaQ6 ee 85 300V AC DC Frequency 45 65 Hz Measurement Inputs VoltaQ6 ee 85 300 V RMS L N CUM uu u unus 0 01 6 A RMS Frequency 45 65 Hz Night Day Input 85 265VAC RMS Measurement Sensitivity CL luu sea lt 0 3 Voltage lt 0 3 Active Powetr lt 0 5 Reactive Power lt 0 5 Apparent Power lt 0 5 Phase Neutral voltage lt 0 3 OSD man nena lt 0 3 Frequency lt 0 1 Relay outputs 14 pcs Max switching current 5A Max switching voltage 250 VAC Max switc
61. measured Cos values capaci a Es ES Es E Es E Es ES ES E E E T T T T T Eu T T T ion isin DS DD SH ont ot oon AA So 0h dde SHEE HE ROHS OES HS CHE HEHEHE OH H H HEH Y GORDO OR OR HEHH HEHH H H HE A Oe OOH HEH OH H Aa CCE rain QA MEEME OO HEHEH IH H DAR IT AO DD DS SRS DER EA DE DS OH H AEE EHE EHEHE EHE HEE AEH HEHEHEHEH RENE DRE HD RES OA CORO HEH HOHH HEHH H E hi ta Es ta ta Es E Es Es Es a a A ta E En Ea A E E tp e Ea E E E E En EA dl Ea E ta E Ep E En EA E ta E tp E E E ta E Ep E E ca E ta ta E E E ne idus Program opt ER dd PR RR 5 E E E E E E E i i E E E E E E 5 2 gt a a TE TE ie TE o te TE TE TE Bean bbdd CHH HHIH H HE H HHEH H H A eb bp bbdd hee 2 00h diet beba EEEH H EEH HEH 0505250505 SE DO O DD HE DE DM eeh tte CER DR H HO HEHEHEHEH H H A AA EEEIEE ETETE SESE Sees COENH HHH O HH HH H H HEH HIHIHIHI LHL Ono oo tH E EHEH HEH tet t H H H H HEt HEHEHEHEHE EE ee SOR et PORE DADA OA E EE EEEE REREH RD DE AT HE HE HTML H ES SECTION 3 MENUS Es E te By By E ha ay ay E E E E ha A r H tpt t t H t t fo pp chopper E e 50505050250509250505250505250505 ERR DD RR DR HEHEHE HO DD Tee eH SHE te SHE ee AA H H HH HOHH HOH tata AEEA EEEE EEHEEHE ATITA TATE TITATETETITETETITITE ER EE IEEE SIDA POCO PSA na EEEFETEFETEEE cauca SPSS IRA ATA ETIT ETATE LEITE Et
62. mpensation Demand is continued as demand is 10K and higher than CK However there are no inductors to activate nor capacitors to deactivate RAPIDOS Power Factor Controller SECTION 3 MENUS 3 2 1 2 3 2 5 Circular Mode All steps capacitor or reactor shall have 3 phases in circular program Circular program is used in panels with the step structure 1 1 1 1 The step activated first is deactivated first in circular program If the system is inductive If there are shunt reactors activated the number of shunt reactors that will the demand Shall be deactivated If the system is still inductive although all shunt reactors are deactivated the number of capacitors required shall be activated If the system is capacitive If there are capacitors activated the number of capacitors that will the demand shall be deactivated If the demand is resumed although all capacitors are deactivated the number of shunt reactors required shall be activated DINII ENT wy Power Factor Controller e Sal SECTION 3 MENUS INDUCTOR CAPACITOR FIXED DEAD ALL STEPS TO BE USED Compensation is ended as demand is 4K and lower than CK ma Compensation is ended as demand is 0K and lower than CK ma Compensation is ended as demand is 0K and lower than CK m m m m G ee Ss Se s Demand is 10K however there are no inductors to activate nor capacit
63. nd gt Current sub menu 3 2 2 3 1 2 Rea Power Menu Demand values in the reactive power sub menu are as described in Measure gt Demand gt Current sub menu 3 2 2 3 1 3 App Power Menu 3 2 2 4 Demand values in the apparent power sub menu are as described in Measure gt Demand gt Current sub menu Phasor diagram Menu Following information are listed on the right side of the diagram on phasor diagram menu screen e voltage values for phases e current values for phases e Angle values between V1 V2 V2 V3 and V3 V1 e Angle values between V1 11 V2 12 and V3 131 On the phasor diagram current lines are displayed as gray and voltage lines are displayed as black In order to follow the currents and voltages pertaining to the same phase more easily in phasor diagram circles with the same size are added to the ends of the lines pertaining to the same phase RAPIDUS Power Factor Controller SECTION 3 MENUS MESE Comp Alarms Analysis Instantaneous ande EA 0 5c T 5 Measure gt Phasor diagram PP gt lt lt lt Fig 3 78 Phasor Diagram Menu 3 2 2 5 Harmonics Menu RAPIDUS measures calculates current and voltage harmonics up to 51st level Current and voltage harmonics are displayed both in tabular and graphic form 3 3 2 2 5 1 Table Menu Current and voltage harmonics pertaining to each phase are displayed in tabular form in this menu See Fig 3
64. nd mains We advise you to connect a 1 mm2 AWG17 cable to supply input and measure inputs and to connect a 2 mm2 AWG14Cu cable to the current inputs Do not remove RAPIDUS current transformer connections without short circuiting the K L ends of the current transformer to somewhere else or connecting a load adequately low impedance to the K L ends Otherwise dangerous high voltages may occur on the secondary ends of the current transformer The same applies to starting of the device Device shall be placed away from damped wet vibrating and dusty environments Use a dry cloth to clean the device or remove the dust on it Do not use alcohol thinner or an abrasive agent Do not open the inside of the device There are no user maintainable components inside a Pp RAPIDUS Power Factor Controller SECTION 1 GENERAL INFORMATION 1 3 Receipt Control and Contents of the Delivery When the RAPIDUS is delivered to you check that e the packing of RAPIDUS is in good condition e the product is not damaged during transport e name of the product and order number is correct RAPIDUS Order No Description 606 000 RAPIDUS 3 PHASE WITH 12 RELAYS 606 005 RAPIDUS 3 PHASE WITH 12 RELAYS DCM Contents of the RAPIDUS packing is listed below e 1 RAPIDUS e 1 CD ROM User s Manual 4 panel tightening tools e 1 pc of 4 pin female terminal for alarm outputs NO C out2 C out1 NO e 1 pc of 6 pin female terminal for current
65. o the example Alarm Status Indicates alarm entry or alarm exit status Both alarm entry and alarm exit are events for RAPIDUS Both are recorded in MODBUS table 1 gt Alarm entry 0 gt Alarm exit Alarm Value Current value of the parameter related with the alarm For more details refer to Modbus document Example Assume 100VAC is entered as the low limit value for phase1 phase2 and phase3 voltages and phase3 voltage has gone under 100VAC in the system In this case a P RAPIDUS Power Factor Controller Alarm Description is the index number of the relevant alarm bit in the alarm tags Thus for the condition above alarm description value shall be 3 Briefly you can use the number under this heading as an index in the alarm tags to reach the description of alarm Moreover user matches the alarm and alarm tag 3 2 4 1 Phasel Menu Statuses of alarms pertaining to 1st phase are shown in Phase1 menu SECTION 3 MENUS Alarms Fig 3 87 Alarms Menu Normal gt NO Alarm Alarm Following alarm statuses are monitored in Phasel menu Alarm AVAILABLE Alarms gt Phase 1 Alarm Normal Normal Normal Normal Normal Normal V harmonics Normal THDV Normal harmonics Normal THDI Normal F Normal Fig 3 88 Phase1 Menu V phase neutral voltage P active power Q reactive power S apparent power PF power factor V harmonics up to 21st voltage harmonics
66. ompensate a gt RAPIDUS Power Factor Controller SECTION 3 MENUS If user does not want to wait during the retry timer he she can manually command from Comp gt Learn conn Settings gt Setup gt Learn gt Learn conn Learn at start Step number Retry count Fig 3 37 Retry Timer 3 2 1 2 4 1 4 Retry Number When it cannot learn the connection at startup RAPIDUS it tries to learn the connections for times equal to the Retry Number Settings gt Setup gt Learn gt Learn conn Learn at start Retry timer sfo 7 e ool Low limit 1 High limit 20 Fig 3 38 Retry Number 3 2 1 2 4 2 Aux Input Menu Aux input menu is used to ensure that RAPIDUS compensates as per the secondary target cos Settings gt Setup gt Aux input od Off Night Day Generator Fig 3 39 Aux Input a P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 4 3 Off mode If the digital input mode is selected as Off GEN input shall not affect running of RAPIDUS RAPIDUS compensates as per Target 1 Inductive and Target 1 Capacitive values 3 2 1 2 4 4 Night Day Mode If aux input mode is selected as Night Day compensation is performed as per Target 2 Inductive and Target 2 Capacitive values when GEN input is active Energy menu counters count independent of the GEN input 3 2 1 2 4 5 Generator Mode If aux input mode is selected as Gene
67. ons a P a 2 4 Dimensions Dimensions are in millimeters 144 A Em 137 Je RADIDUS Power Factor Controller SECTION 3 MENUS 3 SECTION 3 MENUS z 3 1 First Power on Settings The following page is displayed when RAPIDUS is energized for the first time after it is released from the factory Acilis Ayarlar Startup Settings Hactponku Dil Language English Date 30 August 2013 Time 21 24 13 CTR 1 VTR 1 0 Er number 1 O Fig 3 1 First Operation Settings a 3 1 1 Dil Lang Azbik Setting T rk e and English and Pycckun language options are displayed when you press OK while this tab is selected User shall select the desired option with up and down arrows and press OK If the language is selected as Turkish the language settings for all other tabs shall also be Turkish A l Ayarlar Startup Settings Hactponku Date Time CTR VTR Step number Start Fig 3 2 Dil Lang A3bik Setting ne RADIDUS Power Factor Controller SECTION 3 MENUS 3 1 2 Date Date setting of RAPIDUS is performed here Press OK when this option selected Highlight day month or year digits with the right and left arrow keys Date setting is performed with up and down keys Date setting is completed by pressing OK Acilis Ayarlar Startup Settings Hactponku Dil Language English Time 21 24 13 CTR 1 VTR 1 0 1 Step number Start Fig
68. or the figure below delay setting is zero An alarm occurs in point A Alarm is cancelled in point B An alarm occurs in point C Alarm is cancelled in point D Amplitude Hi limit value Hysteresis do gt 5 292 np SSA sss a ss Waveform Hysteresis Lamosa ea E aa a ia Low limit value A N Z Time Fig 3 54 Alarm Example e P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 8 3 V L L Alarm Menu This sub menu is used for phase phase voltage alarm settings Settings are the same for the settings for Alarm gt V L N menu V L L low and high limit values 0 0 2600000 0 3 2 1 2 8 4 Current Alarm Menu This sub menu is used for current alarm settings Settings are the same for the settings for Alarm gt V L N menu Current low and high limit values 0 0 30000 0 3 2 1 2 8 5 P Alarm Menu This sub menu is used for active power alarm settings Settings are the same for the settings for Alarm gt V L N menu P low and high limit values 10000000000 0 10000000000 0 3 2 1 2 8 6 Q Alarm Menu This sub menu is used for reactive power alarm settings Settings are the same for the settings for Alarm gt V L N menu Q low and high limit values 10000000000 0 10000000000 0 3 2 1 2 8 7 S Alarm Menu This sub menu is used for apparent power settings Settings are the same for the settings for Alarm gt V L N menu S low and high limit values 0 0 10000000000 0 3 2 1 2 8 8 Cos Al
69. ors to deactivate although the demand is continued AN ALARM WILL BE GIVEN mo Fig 3 30 RAPIDUS Circular Mode e P RAPIDOS Power Factor Controller SECTION 3 MENUS 3 2 1 2 3 2 6 Manual program RAPIDUS does not perform automatic compensation when it is taken in manual mode When manual program is active a hand symbol is displayed on the lower left corner of the main menu page This symbol indicates that RAPIDUS is in manual compensation mode Manual mode is activated by pressing down arrow when you are in main menu screen The step that shall be activated is highlighted with arrow keys and OK key is pressed Thus step shall be activated Step shall be deactivated when you highlight the step that will be deactivated and press OK If an hourglass symbol is displayed while the step is being activated this indicates that discharge time is waited to activate the step STE Measure Comp Alarms Analysis cos 1 1000 SO Cos 2 1 000 m 0 5c Cosg3 1 000 2er ER EN x ki xX bx 10 0 c Fig 3 31 Manual Mode Menu 3 2 1 2 3 3 Target 1 Inductive Menu Target inductive Cos value is set here Inductive cos target value may be set between 0 800 and 1 000 3 2 1 2 3 4 Target 1 Capacitive Menu Target capacitive Cos value is set here Capacitive cos target value may be set between 0 800 and 1 000 3 2 1 2 3 5 Target 2 Inductive Menu RAPIDUS may also compensate as per a secondary cos valu
70. rator compensation is performed as per the set Target 2 Inductive and Target 2 Capacitive values when GEN input is active Then energy menu counters See 3 2 2 2 Energy Menu do not count 3 2 1 2 5 Device Menu This menu is used for performing the following settings e Language e Contrast e Pass protection e New password e Display on e Display on time Settings Measure Comp Alarms Analysis Settings gt Setup gt Device Contrast Level 3 Pass protection Off New password 1 Display on Time dependent Display on time 600 Fig 3 40 Device Menu RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 5 1 Language Setting e Turkce e English e Pycckun User shall select the desired setting with up and down arrows and press OK 3 2 1 2 5 2 Contrast Setting This menu is used for performing the contrast setting Level setting steps are displayed when you press OK when this option selected User shall select the desired contrast level with up and down arrows and press OK RAPIDUS screen gets darker when you go up to level 4 RAPIDUS screen gets lighter when you go down to level 4 Settings gt Setup gt Device Language English Level 4 Level 3 Level 2 Pass protection Level 1 New password Level 0 Display on Display on time Fig 3 41 Contrast Setting 3 2 1 2 5 3 Pass Protection If password protection is selected as On you shall enter a passwo
71. rd in order to enter the setting menus each time RAPIDUS is restarted again If password protection is selected as Off you do not need to enter a password in order to enter the setting menus each time RAPIDUS is restarted again Settings gt Setup gt Device Language English Of Contrast Level 3 Pass protection On New password 1 Display on Time dependent Display on time 600 Fig 3 42 Pass Protection e P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 5 4 New Password Setting Factory set password of RAPIDUS is 1 New password may be selected between 1 and 9999 For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Settings gt Setup gt Device Language English Contrast Pass protection On Display on Display on time Fig 3 43 New Password Entry 3 2 1 2 5 5 Display On Setting e Continuous e Time dependent When continuous is selected the backlight of RAPIDUS display does not turn off When time dependent is selected screen backlight is turned on for display on time 3 2 1 2 5 6 Display On Time Setting This tab is used for setting the on time for the backlight of RAPIDUS display It may be selected between 10 and 600 seconds For the usage of RAPIDUS Virtual Keyboard Refer to 3 1 4 Ex Ayarlar gt Kurulum gt Cihaz Language English Contrast Level 3 elo On New password 1 Isiel7 s elol Display on Time dep Low limit 10 Hig
72. s Default settings menu is used to return back to factory settings After this operation all settings other than date and time are returned back to factory settings Note Index values are not reset after this operation SI Measure Comp Alarms Analysis Are you sure Default settings Fig 3 68 Default Settings 3 3 2 2 Measure Menu Sub menus below are available under the measurements menu User shall select the desired tab with up and down arrows and press OK Instantaneous e Energy e Demand Phasor diagram e Harmonics EFEC Comp Alarms Analysis ane ATAR Fig 3 69 Measure Menu ap RAPIDUS Power Factor Controller 3 2 2 1 3 2 2 2 SECTION 3 MENUS Instantaneous Menu Instantaneous measurement values are available in this menu Page in fig 3 68 shall be displayed when OK is pressed while Measure menu Instantaneous tab is highlighted Instantaneous measurement parameters listed below are monitored using the right and left arrow keys Measure gt Instantaneous gt V L N v1 220 0 vz 220 0 v3 220 0 Vo 220 0 Powers V L L gt Fig 3 70 Instantaneous Menu e Phase voltage L N values and average voltage L N value e Phase voltage L L values and average voltage L L value e Phase currents total current I value e Neutral current IN e Cos values of phases and Cos value of the system e Power factor PF values of phases and total power factor PF
73. s of Inductive Active and Capacitive Active ratios User may navigate in Energy alarms menu with up and down arrows Settings gt Setup gt Alarm gt Energy Inductive hi limit 20 0 Alarm relay Off Capacitive hi limit 15 0 Alarm relay Off Fig 3 49 Energy Menu os Adee Inductive reactive energy Inductive hi limit PyO x100 Active energy Capacitive reactive energy Capacitive hi limit x100 Active energy Refer to descriptions of V L N Alarm menu for the alarm relay setting a P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 1 2 8 2 V L N Alarm Menu This sub menu is used for phase neutral voltage alarm settings User may navigate in V L N alarms menu with up and down arrows Settings gt Setup gt Alarm gt V L N Low limit High limit Delay Hysteresis Fig 3 50 V L N Alarm Menu Alarm relay This setting is used for regulation of pulling of the relays when an alarm occurred only In order to ensure that RAPIDUS gives a V L N alarm lower and upper limit values shall be set as described below Alarm relay options Off No alarm relay is pulled in case of an alarm Relay1 Only relay 1 is pulled in case of an alarm Relay2 Only relay 2 is pulled in case of an alarm User shall select the desired setting with up and down arrows and press OK Alarm relay Off Fig 3 51 Alarm Relay Setting If V L N in any of three phases goes out of low or high limit RA
74. splayed 3 2 5 1 1 3 Phase3 Menu Voltage V current I active power P reactive power Q apparent power S cos power factor PF and frequency F values are displayed a gt RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 5 1 1 4 Other VLL12 phase1 phase2 voltage VLL23 phase2 phase3 voltage VLL31 phase3 phase1 voltage 3 2 5 1 2 Daily Menu This menu includes minimum instantaneous values measured from the starting hour of the day Refer to 3 2 1 2 6 1 to current time Descriptions of sub menus are the same as the hourly menu a 3 2 5 1 3 Monthly Menu This menu includes minimum instantaneous values measured from the starting day of the month Refer to 3 2 1 2 6 2 and starting hour of the day Refer to 3 2 1 2 6 1 to current time Descriptions of sub menus are the same as the hourly menu 3 2 5 2 Maximum Menu Sub menus and descriptions of the sub menus of the Maximum menu are the same as Minimum menu Values measured in Maximum menu are also instantaneous maximum values 3 2 5 3 Average Menu Sub menus and descriptions of the sub menus of the Average menu are the same as Maximum menu Average menu displays the average values taken in hourly daily and monthly periods 3 2 5 4 Energy Menu This menu includes hourly daily and monthly counter values Analysis Fig 3 94 Energy Menu ap Je RADI
75. umber setting the step number that the capacitor with the highest power value is connected shall be entered 3 2 3 5 Learned Conn Menu Connections learned by RAPIDUS are displayed Comp gt Learned conn Learn success Network Voltage term Fig 3 85 Learned Conn a P RAPIDUS Power Factor Controller SECTION 3 MENUS 3 2 3 6 Learn Steps Menu RAPIDUS learns the power and type of capacitors or shunt reactors connected to its steps by activating them in order Alarms Analysis lt Alarms Analysis Learning step 1 Fig 3 86 Learn Steps No load current amplitude and cos changes shall occur in the system to ensure that step powers are learned correctly Otherwise RAPIDUS may learn step powers and step types incorrectly 5 3 2 4 Alarms Menu RAPIDUS alarms may be monitored from alarms menu Sub menus are Phase1 Phase2 Phase3 Step and Other A total of 50 alarm conditions with their times are recorded on the RAPIDUS MODBUS table When the number of alarm conditions exceed 50 last occurring alarm conditions is written over the 1st alarm On the MODBUS table the descriptions for the variables related with the alarm conditions are as follows Alarm Timestamp Carries alarm time information It has 32 bit int data structure Alarm Description This is the bit number on the alarm tags Thus user may match the relevant bit on the alarm tag and the alarm Refer t
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