TDR-960-24 Mean Well

9 6 0 W T h r e e P h a s e I n d u s t r i a l DI N R A I L w i t h P F C F u n c t i o n T D R - 9 6 0 s e r i e s S P EC IF I CATI O N M OD E L TD R - 96 0 -2 4 TD R- 96 0 - 4 8 D C V O LTA G E 2 4 V 4 8 V R ATE D C U R R ENT 4 0 A 2 0 A C U R R ENT R A N GE 0 ~ 4 0A 0 ~ 2 0 A R ATE D PO WE R 9 6 0 W 9 6 0W R I P P L E & N OIS E ( m ax . ) No t e .2 1 8 0 mVp- p 2 5 0m V p -p OU TP U T V OLTA GE A D J. RAN G E 2 4 ~ 28 V 4 8 ~ 5 5 V V O LTA GE TO L ER AN C E N o te . 3 1 . 0 % 1 .0 % L I N E R EGU L ATI ON 0 . 5 % 0 .5 % L O A D REG U L ATION 1 . 0 % 1 .0 % S ET U P, R I S E TI ME 1 0 0 0ms , 1 00 m s /4 0 0 VAC 8 0 0 m s, 1 0 0 m s / 5 00 VA C a t f ull lo a d H O LD UP T I M E (Ty p. ) 1 2 m s / 4 0 0 VA C 1 4 m s / 5 0 0 VA C at f u ll lo a d V OLTA GE R A N GE N o t e . 4 Th r e e -P h as e 3 4 0 ~ 5 5 0V A C (D ua l p h as e o p e r a tio n p os s i bl e) 4 8 0 ~ 7 80 VDC F R E QUEN C Y R A NGE 4 7 ~ 63 H z P OW E R FA C TOR (Ty p. ) P F 0. 8 8/ 4 0 0 VAC P F0 . 8 6 / 500VA C a t f ull lo a d E FF I C I EN C Y (Typ.) 9 4 % 9 4 .5 % I N PU T A C C U R R ENT (Ty p .) 2 A /4 00 VAC 1 . 4 A / 5 0 0VAC I N R U S H C U R R E N T (Ty p. ) C O L D START 6 0A LE A K A G E C U R RE N T < 3. 5 mA / 5 30 V A C 1 0 5 ~ 1 30 % ra t e d o u tp u t p o w e r OV E R LO A D P ro te cti o n t yp e : C o n st a n t cu rr en t l i m it i ng , u n i t will sh u t d o wn a f t er 3 sec . , re -p o wer o n t o reco v e r 5 6 ~ 6 5 V 2 9 ~ 33 V P RO T E CT IO N OV E R V OLTA G E P ro te c ti o n t yp e : S h u t d own o /p vo lt a g e, re -p owe r o n t o re co v er 8 5 5 (T SW ) de t e ct o n h e a t si nk o f p o w e r s w it ch 9 0 5 (T S W) de t e ct o n h e a t si n k of p o w e r s wit ch OV E R T E M P ERAT U R E P ro te cti o n t yp e : S h u t d o w n o /p vo l t a ge, re co v e rs a u t om a t ic al ly a f te r te m p e ra t u re g o es d o wn 6 0 Vd c /0 . 3 A, 30 V d c/ 1 A , 30 Va c/ 0 . 5 A re s is t i ve l oa d DC O K R E ALY C ON TAC T RAT IN GS ( m ax . ) FU N C T IO N P le a s e re f e r t o f u n ct io n ma n u a l C U R R E N T SHA R I N G -3 0 ~ + 7 0 (R ef er t o D e ra ti n g C u rv e ) W OR K I N G TE M P. Not e . 5 2 0 ~ 9 5 % R H n o n -c o n de n s in g W OR K I N G H U M I D I TY S TO R A G E TEM P. , H U M IDI TY -4 0 ~ + 8 5, 1 0 ~ 9 5% R H E NVI RO NM EN T TE M P. C O E FF I C I E N T 0 . 0 3 %/ (0 ~ 5 0 ) V IBR AT I ON C o m p on e n t : 10 ~ 50 0 H z , 2G 1 0 m in . / 1 c yc le , 6 0 m in . e a ch a l o n g X , Y, Z a xe s Mou n t in g : C o m p li a n ce to IE C 6 0 0 68 - 2 -6 S A FE TY S TA N D A R D S U L 5 0 8 a pp ro v e d , IE C 6 0 9 50 -1 C B a pp ro v e d b y S I Q W IT H STA N D V OLTA G E I / P-O / P: 3 K VA C I/ P -F G : 2 K VA C O /P -F G: 0 .5 K VAC O /P -D C OK : 0. 5 K VA C S A FE TY & I SO LAT IO N R E S IS TA N C E I / P-O / P, I / P- FG, O / P- FG: > 1 0 0 M O h m s / 5 0 0 V D C / 2 5/ 7 0 % R H E M C ( N ot e 4 ) E M C E M I S S IO N C o m p li a n ce to EN 5 5 0 2 2 (C I S PR2 2 ), E N 6 1 2 04 -3 C la ss B , E N 61 0 0 0 -3 -2 , -3 E M C I M M U N IT Y C om p li a n ce to EN 61 0 0 0- 4 - 2,3 , 4, 5, 6 ,8 ,11, E N5 5 0 24 , EN 6 10 0 0- 6- 2 ( E N50 0 82 - 2 ), E N6 1 204 - 3, h e av y in d u st r y le v el , c r it er ia A M TB F 5 9 .4 K h rs m in . M IL -H D B K -2 1 7F (2 5) OT H E R S D I M ENS I ON 11 0 *1 2 5 . 2* 1 5 0 m m (W *H * D ) 2 . 47 K g 6 p cs / 15 . 8 K g/ 1 . 4 7C U FT PA C K I N G N OT E F i le N a m e :T D R - 9 6 0 - SP E C 2 0 1 3 - 0 4 - 2 69 6 0 W T h r e e P h a s e I n d u s t r i a l DI N R A I L w i t h P F C F u n c t i o n T D R - 9 6 0 s e r i e s M e c h an i c a l Sp e c i f i c at i o n C a se N o . 2 1 4 A U n i t : mm 1 2 3 4 1 25 . 2 C N 2 0 5 1 2 34 1 2 3 4 TB 1 5 6 1 TB 2 2 3 4 A D M I S S I B L E D I N - R A I L : T S 3 5 / 7 . 5 O R T S 3 5 / 1 5 Te r m i na l P i n N o . A s si g n m e n t ( T B 1 ) Te r mi n a l P i n N o . A ss i g n m en t ( T B 2 ) C o n t r o l P i n ( C N 2 05 ) : D I NK L E EC H 2 5 0 R - 0 4 P or e q u i v al e n t P i n N o . As s i g n m e n t P i n N o . A ss i g n m e n t P i n N o . As s i g n m e n t M a t i n g H o u s i n g Wi r e D i a m e t e r 1 F G 1 , 2 , 3 D C O U TP U T + V 1 P - ( Cu r r e n t S h a r e ) D I N K L E E S C 2 5 0 V- 0 4 P 2 0. 0 8 1 ~ 0 . 5 1 7 m m o r e q u i v a l e n t 2 A C / L 3 4 , 5 , 6 D C O U TP U T - V 2 P + ( Cu r r e n t S h a r e ) ( 2 8 ~ 2 0 A W G ) ( I nc l u d i n g i n t h e 3 A C / L 2 3 , 4 D C O K R el ay C o n t ac t si ng l e p ac k a g e ) 4 A C / L 1 B lo c k D i a g r a m P F C f o s c : 65 K H z P W M f o s c : 60 K H z DC O K R E C T I F I E R S E M I FI LT E R P OW E R P F C +V I / P & & S W I TC H I N G C I R C U I T - V R E C TI F I E R S F ILTE R O . C . P. O . L . P. D E T E C T IO N F G P W M C I R C U I T P F C C O N T R O L C U R R E N T C O N T R OL C U R R E N T S HA R E S H A R E O . T. P. O . V. P. D C O K R e l a y C o n t a ct C on t ac t Cl o s e P SU t ur n s on / D C O K. C on t ac t O pe n P SU t ur n s of f / DC F a il . C on t ac t Ra t i ng s ( m ax . ) 3 0 V / 1 A r e s is t i v e l o a d . F i le N a m e :T D R - 9 6 0 - SP E C 2 0 1 3 - 0 4 - 2 6