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Complete 11 page APA formatted essay: Single Tuned Harmonic Filter Design.Download file to see previous pages... Therefre, the filter re ued t ntrl hrmni in the netwrk. T deign uh filter, it i neery t
Complete 11 page APA formatted essay: Single Tuned Harmonic Filter Design.
Download file to see previous pages...Therefre, the filter re ued t ntrl hrmni in the netwrk. T deign uh filter, it i neery t:
Minimiztin f ttl t f the filter (bjetive funtin) ubjet t ertin vlue f filter rmeter (ntrint) i the bigget hllenge fr filter deign. n timiztin re n be defined mximiztin (r minimiztin) f n bjetive funtin, f(x), ubjet t me ntrint f the rblem, g(x). Thee ntrint define the feible regin, i.e. regin tht ntin ible lutin f the rblem. The bjetive funtin i t minimize the ttl t f the filter n be frmulted :
where F i the ttl filter t. R the filter reitne. X the fundmentl frequeny itive retne. XL the fundmentl frequeny indutive retne. Q the qulity ftr. X0 the rennt retne. min nd mx: dente the minimum nd the mximum limit, reetively.
The ue f nventinl L tehnique i ulr, ne my ue due t the imliity f ytem mdeling nd bjetive. The qulity ftr determine hw hrly the filter i tuned t the trget hrmni rder. The dmittne f high Q filter dr ff quikly t frequenie bve nd belw it trget vlue. The timl Q fr ingle tuned filter led t hve the lwet hrmni vltge ditrtin.
where . . . U the inrementl t f the itr nd it i equl t 170103LE/MVR. UL the inrementl t f the retr nd it i equl t 170103LE/MVR. n the hrmni number. K=ntnt=0.4KW/MVR . If the fundmentl urrent mnent. Ih the hrmni urrent mnent. U i ntnt, nd it i equl t :
The fuzzy liner rgrmming tehnique i ued t minimize the bjetive funtin in Eq. (1) nd tify the filter rmeter (ntrint). ...
The imedne f ingle tuned filter (Z) n be exreed :
(7)
t the trget hrmni rder, the filter retne i:
(8)
nd
(9)
where h i the trget hrmni rder.
The ttl filter t bjetive funtin f filter deign f Eq. (1) n be exreed :
(10)
=K1R+K2X+K3XL
where . . . U the inrementl t f the itr nd it i equl t 170103LE/MVR. UL the inrementl t f the retr nd it i equl t 170103LE/MVR. n the hrmni number. K=ntnt=0.4KW/MVR . If the fundmentl urrent mnent. Ih the hrmni urrent mnent. U i ntnt, nd it i equl t :
(11)
U=8760vFuUu
where Fu i the Filter utiliztin ftr whih i equl t 1.0 nd Uu i the t f wer l/KWH whih i equl t 0.2 L.E.
(12)
nd N i the filter life=15 yer. I i the interet rte=0.05.
3.2. FD uing fuzzy liner rgrmming (FL) timiztin tehnique
The fuzzy liner rgrmming tehnique i ued t minimize the bjetive funtin in Eq. (1) nd tify the filter rmeter (ntrint). The differene between L nd FL tehnique i tht the vlue nd ertr uing the nventinl L re ri vlue, while, the vlue nd/r ertr f the FL re Fuzzified hrteriti, uing FL tehnique.
3.2.1. Fuzzy mdeling f ntrint
The red tringulr fuzzy mdeling fr the filter reitne i hwn in Fig. 1. It i een tht, memberhi funtin fr the reitne i equl t 1 igned t Rmed, eh mnent f filter i rereented by tw liner ntrint: the lwer limit nd the uer limit.
The lwer limit memberhi fr the reitne f the filter i deribed fllw:
(13)
nd the uer reitne limit memberhi i:
(14)
imilrly, the red tringulr fuzzy mdeling fr the itive retne i hwn in Fig. 2. The lwer limit memberhi fr the itive retne f the filter i deribed fllw:
(15)
nd the uer itive retne limit memberhi i:
(16)
imilrly, the red tringulr fuzzy mdeling fr the indutive retne i hwn in Fig. 3.
