AEG 2.33 2 manual

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Table of contents for the manual

  • Page 1

    USER MANUAL EN Pr otect 2.33 2.0 Un int err up tib le Po wer Su pp ly UPS[...]

  • Page 2

    2 C ON TE NT S 1. In tr od uc ti on .. .. .. ... ... .. ... ... .. ... ... .. ... ... .. ... ... .. ... ... .. ... ... .. ... ... .. ... ... .. ... ... .. . 5 1. 1. U si ng th is ma nu al . .. ... ... .. .. .. ... ... .. .. .. ... .. .. .. .. .. ... .. .. .. .. .. ... ... .. .. .. ... .. .. .. .. .. ... ... .. .. .. ... 5 1. 1. 1. S ym bol s a nd c[...]

  • Page 3

    3 4. 3. C on ne cti on .. .. .. ... ... .. .. .. ... ... .. .. .. ... .. .. .. .. .. ... .. .. .. .. .. ... ... .. .. .. ... .. .. .. .. .. ... ... .. .. .. ... .. .. . 26 4. 3. 1. T o t he ma in s co nn ec tio n, te rm in als ( X1 t o X4 ) .. .. .. ... .. .. .. .. .. ... .. .. .. .. .. ... . 26 4. 3. 2. C on nec tio n of t he ou tp ut , te rmi nal[...]

  • Page 4

    4 6. 3. 3. ‘ ‘M EAS UR ES ” le ve l ( scr een m en u 2. 0) .. .. .. .. ... ... .. .. .. ... ... .. .. .. ... .. .. .. .. .. ... .. ..48 6. 3. 4. ‘ ‘S ETT IN GS ” le ve l ( scr een m en u 3. 0) .. ... .. .. .. ... ... .. .. .. ... .. .. .. .. .. ... .. .. .. .. .. ... 51 6. 3. 5. ‘ ‘A LA RM S” le vel ( sc re en m en u 4.0 ) ... .. [...]

  • Page 5

    5 W e wo uld l ik e to t han k y ou i n adv an ce f or t he tr us t yo u hav e p la ce d in us b y pu r - ch as in g th is pr od uct . R ea d th is in st ru ct io n m an ua l ca re fu ll y be fo re s ta rt ing up t he eq ui pm en t and ke ep i t for a ny p os si ble fu tu re c on su lt at ion th at m ay be r eq uir ed . W e re ma in c om ple tel y [...]

  • Page 6

    6 1 .1 .1 . SY MB OL S AN D CO NV EN TI ON S US ED W arn ing Ca r ef ull y r ead t he i nd ic ate d pa ra gr ap h a nd ta ke t he st at ed p re ve nt io n me asu r es . Da ng er o f ele ctr ic al d isc ha r ge Pa y sp ec ia l a tte nt io n to it , bo th i n t he in di ca tio n on t he e qui pm en t an d in the pa ra gr ap h re fe rr ed in t hi s us[...]

  • Page 7

    7 1 .1 .2 . FO R MO RE I NF OR MA TI ON A ND H EL P Fo r mo re in fo rm at ion an d/ or h elp w it h th e ver si on o f yo ur spe ci fic u nit , co nt ac t ou r Se rv ic e a nd T ec hn ic al Sup po rt ( S.T .S .) . 1 .1 .3 . SA FE TY A ND I NS TR UC TI ON S T oge th er w ith th e eq ui pme nt a nd t hi s “ us er a nd i nst all at io n“ ma nu a[...]

  • Page 8

    8 2 .1 . MA NA GE ME NT D EC LA RA TI ON Ou r go al i s th e cl ie nt ’ s sa tis fa ct io n, t he re fo re th is m an ag em en t ha s de ci de d to es ta b l is h a qu al it y a nd e nv ir on me nt al po li cy , by m ea ns o f in st al la ti on a qu al it y an d en vi ro nm en ta l ma na ge me nt s yst em t ha t be co me s us c ap ab le t o com p[...]

  • Page 9

    9 2 .2 . ST AN DA RD S Th e UP S se rie s p r odu ct is d es ign ed , ma nu fa ctu r ed a nd cer ti fie d in ac co r dan ce wi th t he sta nd ar d IS O 90 01 of qu al it y man ag em en t sy ste ms. Th e m ar ki ng s how s t he c on for mi ty t o th e E EC di re ct iv e (q uo ted be tw ee n br ac ke ts ) by mea ns o f the a pp li ca ti on of th e f[...]

  • Page 10

    10 3 .1 . VI EW S 3 .1 .1 . VI EW S OF T HE E QU IP ME NT 3 . PR ES EN T A TI ON Fi g. 2:  C ab ine t f ro nt v ie w fo r U PS u p to    20  kV A w ith  fr on t do or  clo se d Fi g. 3:  C ab ine t f ro nt v ie w fo r U PS f ro m   30  to 8 0 k V A w ith  fr on t do or  clo se d (CL) (CL) (P[...]

  • Page 11

    11 Fi g. 4:  C on tr ol p an el v ie w Fi g. 6:  C ab ine t f ro nt v ie w fo r U PS u p  to  20 k V A wi th  fr ont  do or o pe ned  2 3 a b c d e 1 Fi g. 5:  C om mun ic ati on  con ne cto rs  det ai ls Fi g. 7:  C ab ine t f ro nt v ie w fo r U PS u p to    30  to 8 0 k V A w ith [...]

  • Page 12

    12 Fi g. 8:  N o.  1–3  bat te ry  cab ine t f ro nt  vie w  wi th  fr ont  do or c lo sed Fi g. 9:  N o.  1–3  bat te ry  cab ine t f ro nt  vie w w ith  fr ont  doo r o pen ed Fi g. 10:   No . 4 b att er y ca bi net  fr ont  vie w w ith  fr ont  doo r c los ed Fi g. 11:   No . 4?[...]

  • Page 13

    13 3 .1 .2 C OR RE S PO N DI NG LE GE ND S F OR T HE E QU I PM EN T V IE W S Pr ot ect io n an d ha ndl in g el em en ts (Q ): (Q 1a ) In pu t ci rc ui t br eak er o r sw itc h ac co rd ing t o po wer o f th e eq uip me nt (Q 2) Ou tpu t s wi tc h (Q 3) Ba tte ry fu se h old er sw it ch wi th 3 f us es (m od el s up t o 4 0 k V A) or s wi tc h (f o[...]

  • Page 14

    14 Ke yb oa rd an d op ti cal i nd ic at io ns co nt r ol pan el ( PC ): (L CD ) Gr aph ic L CD (E NT ) Ke y “E NT ER ” (E SC ) Ke y “E SC ” (  ) Ke y up (  ) Ke y do wn (  ) Key m ov e to ri gh t (  ) Key m ov e to le ft (a ) Re ct ifi er i npu t v ol ta ge OK L ED ( gr een ) (b ) Ou tp ut v ol tag e u ni t fr om t he b ypa ss[...]

  • Page 15

    15 3 .2 . ST RU CT UR E 3. 2. 1. S TR UC TU RA L SC HE MA In a s in gl e l ine d ia gr am, fi gu r e 1 2 s ho ws t he ba si c st ru ctu re o f s tan da rd eq ui pm en t and an ot he r one w it h se pa rat e b yp as s lin e, f or a t hr ee p ha se inp ut an d ou tp ut co nfig ur at io n. Fo r an y ot her co nfi gu ra tio n, o nl y th e q ua nt it[...]

  • Page 16

    16 • Th e ba si c dou ble c on ve rsi on s tr uc tu re i s co mp lem en te d by t wo ne w fu nc ti ona l bl oc ks , th e s tat ic b yp ass c om mu te r swi tch a nd t he ma nu al b yp ass c om mu te r sw it ch . • Th e st at ic by pas s co mm ute r sw it ch c onn ect s th e out pu t lo ad d ir ec tl y to the by pa ss n et wor k i n sp ec ial c [...]

  • Page 17

    17 In a ll t he se cas es t he ou tp ut v ol ta ge of th e UP S i s su pp li ed by t he e me rg en cy by pa ss l in e t hr ou gh the s ta ti c b yp as s co mm ute r sw it ch ( Fig . 1 2) , pr ov id ed t hat th e EP O is i na cti ve. 3 .3 .4 . OP ER A TI ON I N MA NU AL B YP AS S Wh en w e wi sh to pe rf or m s om e ma in te nan ce ch ec k on th e d[...]

  • Page 18

    18 Th er e a r e tw o o per at io n mod es p os si bl e: • Re du nd an t sys tem : As l ong a s bo th U PS do no t ex cee d th e le ve l o f 50 % l oa d on e UP S is ab le to t ak e o ve r th e fu ll loa d if o ne of t he U PS in t he s ys te m f ail s. Af te r th e fai led U PS w as r ep ai re d it c an be r es tar te d an d wi ll r ec ov er the[...]

  • Page 19

    19 • Re fe r to t he saf et y in str uc ti on s. • En su r e t hat t he d ata on t he r ati ng p la te o f t he U PS m at ch tho se r equ ir ed fo r in st al la ti on. • An y in co rr ec t co nn ec tio n or h an dl ing m ay c au se da mag e to t he UP S an d/ or th e lo ad s con nec te d to it . Re ad t he se ins tr uc ti ons c ar efu ll y an[...]

  • Page 20

    20 On ce t he p owe r s up pl y is co nn ec te d to the i np ut of t he U PS ( wit h st at ic b ypa ss in cl ud ed o r w ith a n in dep en de nt s ta tic by pa ss l ine ), a lt ho ug h t he i nv er te r i s “ Of f” (s hu t- do wn ), it do es n ot me an t ha t no out pu t vo lta ge i s av ai lab le a t th e out put te rm in al s. T o d o th is ,[...]

  • Page 21

    21 • Av oi d me ch ani cal e xe rt ion s an d an y imp act s. • Do n ot o pe n o r d am ag e the b at te ry . Rel eas ed e le ctr ol yt e c an b e ha rm ful t o th e sk in a nd e yes . • Do n ot d is pos e o f ba tt eri es i n a fi re . Th e ba tte ri es m ay e xpl od e. • In c as e of co nta ct w it h t he b at te ry ac id, w as h imm ed i[...]

  • Page 22

    22 Th e cr oss s ec ti on s o f a ll o f the c on ne ct in g c ab le s mu st in ea ch c as e b e si ze d ac co r din g t he f us e s ele ct ed . In c as es w er e ad de d inp ut , ou tp ut or b yp as s pe rip her al s to th e UP S (e .g . tr an sf or me rs or au to tr ans fo rm er s) c urr en ts ar e st ate d in t he n ame pla te s of th e pe ri ph[...]

  • Page 23

    23 If t he se s ect ion s sh ou ld ha ve t o be ch ang ed f or an y r ea son , t hi s sh oul d be im pl em en te d w ith a s ep ara te d is tr ib uti on bo x an d t he s ec ti on s i nd ic at ed s hou ld be m ai nt ai ned fr om th e de vi ce to t he d is tr ibu ti on b ox . In s ta nd ar d eq ui pm en t u p to 4 0 kV A, b at te rie s ar e s up pl i[...]

  • Page 24

    24 If t he s ur ro un d is m ade o f wo od ; re mo ve t he cor ne r pi ece s a nd t he pl as ti c sl ee ve fir st . Th e UPS wi ll b e unp ac ke d on t he pal le t, t o l ow er i t, s uit ab le m ea ns (f ork tr uc k, c ra ne, ho is t) m ust b e us ed t hat ca n op er ate w it hi n th e s af et y to le ran ce li mi ts f or th e a pp ro xim at e we[...]

  • Page 25

    25 4 .2 .4 . LO CA TI ON Th e se cu ri ty ins tr uc ti ons i nd ic at e tha t i t is n ece ss ar y to l eav e a mi ni mu m o f 2 5 cm ar ou nd th e eq ui pm ent fo r ve nt ila ti on ( 2 UP S d ev ic es i n par all el o pe rat io n sh ou ld be s et 5 0 cm apa rt f ro m ea ch o the r . Se e Fi g. 14 an d 15 .) N ev ert he le ss , we r ec om - me n[...]

  • Page 26

    26 4 .3 . CO NN EC TI ON 4. 3. 1. T O TH E MA IN S CO NN EC TI ON , TE RM IN AL S (X 1 TO X 4) As t hi s is a dev ic e wi th cl as s I pr ot ec ti on a gai ns t el ec tr ic sh oc ks , it is es se nt ia l t o in st al l a pr ot ec ti ve ea rt h co nd uc tor ( co nn ec t ear th ( ) ). C on ne ct th e c on du ct or to th e te rm in al (X5 ) , b ef or [...]

  • Page 27

    27 aw ay f ro m t he d ev ice to a le rt el ec tr ic al m ain te na nc e pe rso nne l to t he pr es enc e of a U PS i n t he ci rc uit . Fi g. 18:   Bl ock  di agr am  for  the  «f eed ba ck p r ote ct ion » ap pl ica ti on , fo r th e d if fer ent  co nfi gu rat io ns Fi g. 19:   Si ngl e l ine  dia gr am  of p ar[...]

  • Page 28

    28 Th e la be l sho uld c on ta in th e fo ll ow ing or a n eq uiv al en t te xt : Be fo r e w ork in g on th is c ir cui t: • Is ol at e Un int err up ti bl e P ow er S ys te m ( UPS ). • Th en c he ck fo r H az ar dou s V olt age b et we en al l te rm in als in cl ud in g t he pr ot ect iv e ea rt h. R is k of v olt ag e fe ed ba ck T o c on [...]

  • Page 29

    29 co rr esp on di ng c ir cu it b re ak er s ho ul d t rig ge r wi tho ut a f fec tin g th e sup pl y of t he r em ai nin g o ut le ts (s ele ct iv e) . 4 .3 .3 . UP S CO NN EC TI ON T O EA CH B A TT ER Y P A CK I N C AB IN ET , TE RM IN AL S (X 11 , X1 2, X 23 A ND X 47 , X4 8, X 49 ) As t his i s a d evice with class I pr otect ion a gains t ele[...]

  • Page 30

    30 4 .3 .4 . CO NN EC TI ON M AI N PR OT EC TI VE E AR TH IN G T ER MI NA L ( ) AN D PR OT EC TI VE E AR TH B ON DI NG TE RM IN AL ( ) As t hi s is a dev ic e wi th cl as s I pr ot ec ti on a gai ns t el ec tr ic sh oc ks , it is es se nt ia l t o in st al l a pr ot ec ti ve ea rt h co nd uc tor ( co nn ec t ear th ( )) . C on ne ct t he co nd uc t[...]

  • Page 31

    31 co mm on g ro un d is c on nec te d to p in 5. F ur th er mo re , an i np ut si gn al c an be u se d to s hu t do wn the U PS ( 5 V DC – 1 2 VD C.) PI N- OU T NO . DE SC RI PT IO N N. C. -N .O . POS ITI ON 1 Sh ut do wn s ign al + - 2 Sh ut do wn s ign al – - 3 Co nfi gu ra bl e No t co nn ec t 4 Di sc ha rg e - M ai ns fa ilu r e N. C. 1 5[...]

  • Page 32

    32 Ph ys ic al s tru ctu r e o f t he R S23 2. • Pi n- ou t - Pi n 2. R XD . S eri al d at a r ec ep tio n. - Pi n 3. T XD . S eri al d at a t ra ns mi ss io n. - Pi n 5. G ND . S ign al m as s. • Co mm un ic at ion pr oto co l of t he RS 23 2. Th e co mm un ica tio n pr oto co l us ed is o f “M AS TER /S LA VE ” ty pe. Th e co mp ut er or [...]

  • Page 33

    33 4. 3. 7. E PO T ER MI NA LS ( X5 0) Th e eq ui pm ent ha s tw o ter mi na ls r ead y fo r ext er na l re mot e (E me rg en cy P ow er Of f (EP O) ). In c as e wh er e th er e is a r equ ir eme nt t o in sta ll a s wi tc h o r b ut to n (EP O) , th e ca ble br id ge t ha t c los es t he ci r cu it ha s t o be r em ov ed f ro m te rm in al st ri p[...]

  • Page 34

    34 • Fi x th e BU S c abl es t o the b ot to m of th e U PS u si ng th e pl as ti c c li ps b el ow th e co mm un ic at ion in te rf ac es. No te : Al wa ys use t he o rig in al l in es to en su re t r ou ble fr ee pa ra ll el o per at io n. Fi g. 23:   Pa ral le l BU S C onn ec tio n[...]

  • Page 35

    35 No te : Th e fol low in g de scr ip ti on s re la te t o op era ti on o f th e U PS u si ng t he key s be lo w th e dis pla y sc re en . Op er ati on ca n al so be c ar ri ed ou t u si ng t he to uc hs cr een ca pa bi li ty , j uts t yp e in th e ap pr opr ia te fi les o r te xt . 5 .1 . ST AR T UP 5 .1 .1 . CO NT RO L BE FO RE S T AR T UP En s[...]

  • Page 36

    36 At t hi s po int , w it h no al ar m ac ti ve , g re en LE D in di ca ti ons of i np ut vo lt ag e OK , an d or an ge LE D i nd ic at ion o f Un it o n B ypa ss s ho uld l ig ht ( (a ), (b ) fr om Fi g. 25 ). T ur n t he ou tp ut sw it ch ( Q2 ) to “O n” . It i s n ow po we re d by t he bu ilt i n Th yri st or su pp ly v ol tag e St ar t up [...]

  • Page 37

    37 St ar t up t he loa ds t o be su pp li ed i n a pr ogr es siv e w ay . Th e s ys te m is s tar ted u p co mp le te ly , a nd th e lo ads a r e pr ot ec te d thr ou gh th e UP S. Fi g. 25:   2 3 a b c d e 1 LE D in di ca tio ns  con tr ol  pan el  (PC ) 5 .2 . CO MP LE TE U PS S HU TD OW N • Sh ut do wn t he loa ds . • If t he s ys [...]

  • Page 38

    38 5 .3 . EM ER GE NC Y PO WE R OF F (E PO ) OP ER A TI ON Em er gen cy P ow er O ff ( EP O) i s e qu iv al en t to a co mp le te un it sy st em ha lt : • Al l UP S co nve rte rs a re t ur ne d of f (r ect if ie r an d i nv er te r of f) . • No o ut pu t vol tag e is s upp li ed t o th e l oad s. Se e ta bl e bel ow fo r op era ti on : E. P .O [...]

  • Page 39

    39 ba tt er ie s you wi ll fi nd a 2n d ba tt er y s wit ch u se d f or m ea su ri ng th e ba tt er y v olt ag e in si de t he to p o f th e uni t (3 -p ol e cir cu it br ea ke r . ) T o sw it ch e qu ipm en t po we r of f co mp le te ly yo u w il l al so ne ed t o op en thi s sw it ch. B ew ar e o f po ss ib le r es id ual ch ar ge in t he c ap a[...]

  • Page 40

    40 su bm en u (s cr ee n 1. 0) , a nd t he n se lec t “O N” a nd Pr es s (EN T) on ce . Y ou wil l ge t to sc r ee n 1 .1, a sk in g y ou to s ta rt th e un it u p “ ye s” o r “n o”. Y ou c an s ele ct “Y es ” by pr es sin g (E NT ) . Th e UP S su ppl ies o ut pu t v ol ta ge e nt ir el y pr ot ec te d ag ain st vo lt ag e v ar ia t[...]

  • Page 41

    41 6 .1 . CO NT RO L P AN EL P AR TS (1 ) (L ED s) LED i nd ic at ion s: (a ) Re ct ifi er I npu t V o lt age OK ( gr een ) (b ) Un it o n By pas s ( or an ge ) (c ) In ve rt er is w or ki ng ( gr ee n) (d ) Un it w or ki ng fr om ba tte ri es - mai ns f ai lu re ( r ed ). (e ) In c as e of an y a la rm o f t he u ni t (r ed ) (2 ) Gr ap hi c Di s[...]

  • Page 42

    42 Ke y (E NT ) , ha s d if fer ent pu rp os es de pe nd in g on th e m en u we ar e: • Se tt in g va lue s. Pr ess k ey ( EN T) to a ct iv at e t he f un ct io n s ett in g, t he Fi gu r es in th e sc re en wi ll b lin k. Wi th k eys - t he c ha rac ter t o se t i s s el ec te d a nd w it h ke ys - t he v al ue is se le ct ed . T o co nf ir m pr[...]

  • Page 43

    43 6 .2 .1 . ME SS AG ES M EN US A ND C LA SS IF IC A TI ON I N SU BM EN US Us e ( ) ( ) an d ( ) ( ) k ey s to c ho ose be tw ee n dif fe re nt m en us (1 .0, … , 5. 0) an d Pr ess E NT t o ent er in to t he su bs cr een . Fi g. 27:   screen 0.0 The input/output/battery voltage and the power flow screen 1.0 (Ent) screen 2.0 (Ent) screen 3.0 ([...]

  • Page 44

    44 6 .2 .2 . ME NU S TR UC TU RE[...]

  • Page 45

    45 6 .3 . SC RE EN D ES CR IP TI ON 6 .3 .1 . MA IN L EV EL ( SC RE EN M EN U 0. 0) Sc r ee n 0 .0: Ma in p re sen ta ti on sc re en , w it h ti me a nd dat e in di cat io n. In it ia li za tio n: Af te r pow er o n Us e (E SC ) key or E nt er th e Ic on h om e o n an y scr ee n of an y su bm en u, to go ba ck t o ma in scr een ( Sc r een 0 .0 ). F[...]

  • Page 46

    46 6 .3 .2 . UP S ST A TU S CO NT RO L (S CR EE N ME NU 1 .0 ) Sc r ee ns 1.1 a nd s cr ee n 1. 2: St ar ti ng a nd swi tc hi ng of f th e e qu ip me nt . Fo r ho w to st art a nd s wit ch o f f s ee ch ap te r 5 .1 a nd 5 .2 . Sc r ee n 1 .3: Or de ri ng a b at te ry t es t. I n t he s ec on d ro w , inf or ma ti on a bo ut t he b at te ry t es t [...]

  • Page 47

    47 Sc re en  1.1   T u rn on  UP S Sc re en  1.2   T u rn of f UP S Sc re en  1.3   Ba tte ry  T e st[...]

  • Page 48

    48 6 .3 .3 . ‘ ‘M EA SU RE S” L EV EL ( SC RE EN M EN U 2. 0) Sc r ee n 2 .1: • In pu t vo lt age s p ha se t o p ha se ( di sp lay un it s 0. 1 V ) • Th r ee ph ase i np ut vo lta ge s ph ase s to n eu tr al (d is pl ay u nit s 0 .1 V ) • In pu t cu rr en t pe r ea ch ph as e (d is pla y un it s 0. 1 A ) • Th r ee ph ase o ut pu t v [...]

  • Page 49

    49 • Ch ar ge ba tt er y cu rr en ts p os iti ve a nd n eg ati ve ( di sp la y u nit s 0. 1 A) • Di sc ha rg e b at te ry cu rr en ts po si ti ve a nd neg at iv e (di sp la y un it s 0 .1 A) Sc r ee n 2 .3: • In pu t, b yp ass an d ou tp ut fr eq uen ci es ( di sp lay u ni ts 0 .1 Hz ) • Re ct if ie r , i nv ert er a nd b at ter y t em pe r[...]

  • Page 50

    50 Sc r ee n 2 .4: • Ap pa r ent ou tp ut p owe r L 1 (d is pla y un it s 0. 1 k V A) • Ap pa r ent ou tp ut p owe r L 2 (d is pla y un it s 0. 1 k V A) • Ap pa r ent ou tp ut p owe r L 3 (d is pla y un it s0 .1 kV A ) • Ac ti ve o ut put po we r L1 (d is pl ay u ni ts 0.1 k W) • Ac ti ve o ut put po we r L2 (d is pl ay u ni ts 0.1 k W) ?[...]

  • Page 51

    51 6 .3 .4 . ‘ ‘S ET TI NG S” L EV EL ( SC RE EN M EN U 3. 0) Fi g. 31:   Sc re en 3 .0  “Se tt ing s”  and  it s su bm enu s. Sc r ee n 3 .1: “ De fa ult s et ti ng s“ Th e co lo r sch eme c an no t b e mo di fie d in the c ur re nt s of tw ar e ve rs io n. Se tt in g th e t ime a nd d ate f or ma t Th e fo ll ow ing di [...]

  • Page 52

    52 so ft wa re ve rs io n thi s c an no t be ch an ge d. If n ot a lr ea dy e nt er ed b y yo ur AEG P S se rvi ce t ea m: E nte r y ou r se rvi ce c on ta ct Sc r ee n 3 .2: In t hi s sc re en y ou c an pr og ram t he b au d rat e of c om mu nic ati on ( po rt 0 an d po rt 2) . Th e op tio ns ar e t he f ol lo win g • “1 20 0“ • “2 40 0?[...]

  • Page 53

    53 No te : Fo r pr ob le m fr ee c om mu nic ati on w it h t he S NM P ad apt er an d Co mp uW at ch , yo u s ho ul d no t cha ng e th e se tti ngs . Sc re en 3 .3 : Th e sc r een fo r pr ogr am mi ng t he fr eq uen cy of t he a uto ma ti c ba tt er y t est . Th e op ti on s for th e T yp e to b e p r og ra mm ed ar e the fo ll ow in g: • “D IS[...]

  • Page 54

    54 • “J UL “: Th e ann ual b at te ry te st w il l run in J ul y. • “A UG “: Th e a nnu al b at ter y te st w il l r un in A ug ust . • “S EP “: Th e an nu al ba tt er y te st wi ll ru n in Se pt em be r . • “O CT “: Th e an nua l ba tt er y tes t wi ll r un in Oc to be r . • “N OV “: Th e an nua l ba tt er y tes t wi [...]

  • Page 55

    55 Sc r ee n 3 .5 “I nf orm at io n“ In t he s cr ee n “I nf or mat io n” y ou c an ch ec k th e UPS co nfi gu ra tio n of t he u nit . Co nfi gu ra ti on and s ta tu s o f th e un it : • “S in gl e” S ing le co nn ec tio n. • “P ar al le l- Sin gle ” pa ra lle l co nn ec ti on. Un it i s in “s in gl e” s tat e. • “P a[...]

  • Page 56

    56 Sc r ee n 3 .6 In fo rm at io n a bou t th e set -p oi nt v al ues : IP .V a nd O P .V s how s t he d es ir ed v al ue s f or th e in put vo lt ag e at the r ect ifi er a nd t he ou tp ut v ol tag e. In a dd it io n, you w il l see t he m ax im um per mi ss ib le vo lt ag e im bal an ce a t th e r ec ti fier an d th e byp ass i np ut , t he c [...]

  • Page 57

    57 Th e il lu st rat ion s ho ws so me e xa mp le s o f m es sa ge s t ha t ma y be di sp la ye d. T abl e 4 co nt ai ns a li st of a ll of t he w ar ni ng mes sa ge s tha t ca n be d isp la ye d. RE PR ES EN T A TI ON I N DI SPL A Y L CD AL AR MS F OR NO . Re ct ifi er o ver lo ad Re ct ifi er 1 In ve rt er o ver loa d In ve rt er 2 Ma in s fa i[...]

  • Page 58

    58 In ve rt er s top ped d ue t o s hu td ow n In ve rt er s top s 27 Ma in te na nc e b ypa ss . In ver te r st op 28 Pa ra ll el s ys te m di sc on nec ti on . In ve rt er s to p 29 Hi gh o ve rl oad . I nv er te r s to p 30 Ov er t em pe rat ur e. In ver te r st op 31 Re ct ifi er o ver lo ad . In ve rte r s to p 32 DS P in te rna l er ro r . I[...]

  • Page 59

    59 In te rna l in it ia liz at io n er ro r . U PS b lo ck ( DSP ) UP S bl oc ks 55 In te rna l ex ec ut ion e rr or . UP S b lo ck ( DS P) 56 UP S bl oc ke d. BLK . In ve rte r -> B LK . UPS 57 In te rna l co mm un ica ti on . UP S blo ck ( DS P) 58 Pa ra ll el s yst em d is ch ar gi ng . UP S b loc k 59 UP S ov er t emp era tu re . U PS b lo c[...]

  • Page 60

    60 or w he n th e t ota l ou tp ut ac ti ve p ow er is gr eat er t ha n the f ol lo wi ng fo rm ul a: Pa ct _o ut -o vl = P ou t x 0.8 Wh er e: • Pa ct _o ut -o vl is th e Ov erl oa d Ou tp ut Ac tiv e Po we r ( W) • Po ut i s Ra ted Ou tp ut A ppa r en t Pow er (V A) Al arm 3 : Th is a la rm ap pea rs w he n t he i np ut t he uni t is u nde r [...]

  • Page 61

    61 Al arm 1 1: Th e UP S is on by pa ss f or an y r eas on. I t mu st be r est ar te d by d isp lay k ey pa d. Al arm 1 2: Th is i s an al arm f or p ara ll el s ys te ms. It a pp ea rs wh en s om e UPS o f th e pa ral lel sy st em b lo ck bec au se t he ma in te na nc e b ypa ss s wi tch o f an y un it is s wi tc he d O N. Al arm 1 3: Th is a la r[...]

  • Page 62

    62 Al arm 2 0: Wh en t he b ypa ss is c on nec te d du ri ng th e s ta rt u p, a by pa ss p has e r ot ati on er ro r i s de te ct ed a nd the s ta rt up p r oc edu re i s i nhi bi te d. Al arm 2 1: Th is a la rm ap pea rs w he n i n an y ph as e, the r ect ifi er i np ut vo lt ag e ph ase t o ne ut ra l is o ut o f the se t ma rg in s (+ 15 %/ ?[...]

  • Page 63

    63 Al arm 3 0: Th is m es sa ge app ea rs w hen a p ar al le l s yst em h as a UP S sh ut do wn du e to h ig h vo lt ag e. Al arm 3 1: Wh en a n ov er tem pe ra tu re i s de tec ted b y th e P FC o r in ve rte r t em pe ra tur e se ns or s, a fte r 1 m in ut e t im e th e in ver ter w il l be tu rn ed o ff a ut om at ica lly . If o ve r te mpe rat [...]

  • Page 64

    64 Al arm 3 8: Th e EP O (E mer ge nc y P owe r Of f) s wi tc h is ON. T he U PS an d th e st ati c b yp as s ar e sw it ch ed o ff a nd n o AC vo lt ag e pr es en t at th e o ut pu t any mor e. Al arm 3 9: Th is m es sa ge app ea rs w hen , de sp it e the th r ee at te mp ts t o s tar t up t he UP S, a sh or t ci rc ui t is s ti ll de te ct ed a t[...]

  • Page 65

    65 Al arm 4 7: Du ri ng t he st art u p th er e is a n i npu t co nt act or t es t. I f t his t es t end s un su cc es sfu lly th e r ect ifie r wi ll be bl oc ke d. Al arm 4 8: If t he o ut put vo lt ag e ram p do es n’ t w or k pr op er ly d uri ng th e in ver ter s ta rt up t he in ve rt er w ill be b lo ck ed (S ee a la rm 67 ). Al arm 4 9: [...]

  • Page 66

    66 Al arm 5 8: Th er e i s an i nt er nal er r or in t he c om mun ica ti on c han ne l be tw ee n m icr opr oc ess or an d DS P . Th is co ndi ti on b loc ks t he U PS . Al arm 5 9: Th is a la rm ap pea rs w he n, in a p ar al lel sy st em , one U PS g oe s to ba tt er y mo de. Af te r so me pe rio d of t ime , th e UP S wil l s hu t do wn. Al arm[...]

  • Page 67

    67 Al arm 6 6: Af te r se ve ral at te mp ts de te ct in g “I nve rte r Fa ul t/O ve rl oa d” ( see A la rm 6 5) , th e in ve rt er wil l be b loc ke d pe rm an ent ly, an d ou tpu t wi ll b e tra ns fe rr ed to b yp as s. Al arm 6 7: Th e wa y to st art u p th e i nv er te r is on vo lt ag e ram p mo de ( rm s v al ue f ro m si ne w av e vol t[...]

  • Page 68

    68 Al arm 7 4: In a p ar al lel sy st em , wit h N+ M co nfi gur ati on , wh er e: N: n r eq ui pme nt to s iz e t he s ys te m acc or di ng to t he m ax imu m p er mi ss ibl e lo ad . M: n r re dun da nt e qui pme nt i n the s ys te m. I t i s eq ui va le nt to ov er s izi ng t he UP S’ s in th e sy st em , in or de r t o co nt in ue su ppl yi [...]

  • Page 69

    69 (* ) DS P in ter nal e rr or ca n ha ppe n fo r th e fol lo wi ng r eas on s: • W atc hd og f ai lu re . • W r ong A DC m ea su re s. • Co mm un ic at ion er r ors be tw ee n DSP a nd p ro ces so r . Fi g. 32:   Sc re en 5 .0  “Da ta  log ge r”    Th e fi rs t l ine in di ca te s th e i nv er te r ru nt im e f ro m t he ?[...]

  • Page 70

    70 • ss : se co nd s of de let ed a la rm • dd : d ay o f de let ed a la rm • mm : mo nt h o f de le te d ala rm • yy : ye ar o f de let ed al ar m Th e st at e for te ch ni ca l s erv ic e, t o u nd er st an d the co nd it io n o f t he d if fe r en t p art s of th e UP S at th e m om en t the r eg ist er ed al ar m wa s ac tiv at ed .[...]

  • Page 71

    71 7 .1 . BA SI C MA IN TE NA NC E GU ID E Ba tt er ie s, fa ns an d ca pac it or s mu st be r ep lac ed a t th e end of t he ir us ef ul l if et ime . In si de t he UP S t he re ar e d an ge r ous v ol ta ge s and me ta ll ic pa rt s at v er y h ig h te mp er at ur es , ev en t hou gh t he U PS ma y be s hu t dow n. An y di re ct c on tac t c an c[...]

  • Page 72

    72 7 .1 .3 . CO OL IN G F AN Th e li fe sp an of th e co oli ng f an w il l d epe nd o n the u sa ge a nd en vi r on men tal co nd it io ns . I t i s re com me nd ed th at y ou r epl ac e th e f an a s pa rt of th e se rv ice co nt ra ct o n a r eg ula r b as is a nd us in g au th ori ze d te ch ni cal pe rs on ne l. 7 .1 .4 . CA P AC IT OR S Th e [...]

  • Page 73

    73 8 . AN NE XE S 8 .1 . GE NE RA L TE CH NI CA L SP EC IF IC A TI ON T AB LE 5: TE CH NI CAL S PE CI FI CA TIO N Ca pa ci ty ( kV A/ kW ) 10 /8 1 5/ 12 20/ 16 30 /2 4 40 /3 2 60/ 48 8 0/6 4 IN PU T Ac ce pt ab le v ol tag e r ang e 3 x 40 0 V (3 Ph + N) , +15 % t o -2 0 % Fr eq uen cy ( Hz ) 50 / 60 ±5 % No mi na l in put cu rr ent 13 A 20 A 26 A[...]

  • Page 74

    74 ST A T IC BY P A SS T ype T hy ri st or V ol ta ge 3 x 40 0 V (3 P h + N ) Fr eq uen cy ( Hz ) 50 / 60 Co nt r ol mi cr op ro ce ss or c ont r ol ed T ra nsf er ti me un int err up te d Ad mi ss ib le ov erl oa d 40 0 % fo r 1 0 s T ra nsf er to b yp ass imm ed ia te ( fo r o ve rl oa ds > 150 % ) Re tr an sf er a uto mat ic a ft er al ar m c[...]

  • Page 75

    75 T AB LE 6 : EX TE R NA L BA TT ER Y CA BI NE T DI ME NS IO NS & WEI GH T EX TER NA L BA TT ER Y C AB IN ET Ca pa ci ty ( kV A/ kW ) 10/ 8 15 /1 2 20 /1 6 3 0/ 24 4 0/ 32 60 /4 8 80 /6 4 No . 1 No . 3 Di me ns io ns ap pr ox . D x W x H (mm ) 70 0 x 45 0 x 1 100 80 5 x 59 0 x 132 0 In te gr at ed ba tte ry t yp e (2 x3 1) 1 2 V 12 Ah 12 V 2 6[...]

  • Page 76

    76 8 .2 S AF ET Y IN ST RU CT IO NS 1. T o pr ovi de f or • Th es e “S af ety In st ru ct ion s” a r e a sso ci at ed wi th t he “ Op era tin g Ma nu al” r eg ar di ng t he e qui pm en t yo u hav e p ur cha se d. B ef or e pr oce ed in g wit h t he in st al la ti on or th e st art up , r ead th e sa fe ty in st ru ct io ns car efu ll y. C[...]

  • Page 77

    77 to c on ne ct th e p r ote cti on e ar th, e ns ur e t ha t th is is c or r ect ly in st al led b ef or e po we ri ng u p t he in pu t to th e eq ui pm ent . • Th e in st al lat ion o f UP S e qu ip me nt s hou ld on ly b e c ar ri ed o ut by q ua li fi ed pe rs on ne l exp eri en ce d in lo w vo lt ag e i nst al la ti ons . • Th e cr oss s [...]

  • Page 78

    78 • Wh en t he e qui pme nt w il l b e st or ed fo r lo ng pe ri od s, i t is re co mme nde d th at th e ba tt er ies ar e s ep ar at ed f ro m th e UPS so t ha t the y ca n be c har ge d. • Wh en t he e qui pme nt w il l b e st or ed fo r lo ng pe ri od s, i t is re co mme nde d th at th e ba tt er ies be c ha rg ed m on th ly in or der t o m[...]

  • Page 79

    79 N OT ES[...]

  • Page 80

    OPERATING INSTRUCTIONS 8000032013 BAL, EN Pr otect 2.33 2.0 W ARR AN TY DE ALE R S T AM P/S IG NA TU RE ERRORS AND TECHNICAL MODIFICATION SUBJECT TO CHANGE. MO DEL : SE RIA L N UM BER : PU RCH ASE D A TE: Em il- Sie pma nn- Str . 3 2 59 581 W arst ei n-B ele cke – Ger man y T e l.: +4 9 1 80 523 47 87 – Fax : + 49 180 52 3 4 78 9 ww w .ae gps .[...]