MDR-60-Specifications

PLC
DIN Rail Mountable 120 to 240 VAC input, Adjustable 24 to 30 Volt Output

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3. Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Mean Well : MDR-60-12 MDR-60-48 MDR-60-24 MDR-60-5

2. M e c h a n i c a l S p e c i f i c a t i o n F i l e N a m e : M D R - 6 0 - S P E C 2 0 1 3 - 1 0 - 2 2 B l o c k D i a g r a m D C O K R e l a y C o n t a c t - 2 0 0 1 0 2 0 3 0 4 5 5 5 6 0 7 0 ( V E R T I C A L ) 2 0 4 0 5 0 6 0 8 0 1 0 0 A M B I E N T T E M P E R A T U R E ( °C ) L O A D ( % ) C I R C U I T D E T E C T I O N O . L . P . E M I F I L T E R R E C T I F I E R S & F I L T E R P O W E R S W I T C H I N G F I L T E R & R E C T I F I E R S + V D C O K - V I / P C O N T R O L O . V . P . O . C . P . O u t p u t D e r a t i n g V S I n p u t V o l t a g e I N P U T V O L T A G E ( V A C ) 6 0 H z 8 5 1 0 0 9 5 1 2 0 1 1 5 1 6 0 1 4 0 2 0 0 1 8 0 2 4 0 2 2 0 2 6 4 L O A D ( % ) 9 0 1 0 0 8 0 7 0 6 0 5 0 4 0 D e r a t i n g C u r v e + I n s t a l l D I N r a i l T S 3 5 / 7 . 5 o r T S 3 5 / 1 5 3 5 + V + V 9 0 4 0 - V - V N L D C O K + V A D J 5 5 5 5 5 7 . 5 7 . 5 1 0 0 f o s c : 6 0 K H z 1 2 V , 2 4 V , 4 8 V 5 V C a s e N o . 9 6 2 A U n i t : m m DC OK C o n t a c t C l o s e P S U t u r n s o n / D C O K . P S U t u r n s o f f / D C F a i l . 3 0 V / 1 A r e s i s t i v e l o a d . C o n t a c t O p e n C o n t a c t R a t i n g s ( m a x . ) F G 6 0 W S i n g l e O u t p u t I n d u s t r i a l D I N R a i l P o w e r S u p p l y M D R - 6 0 s e r i e s

1. S P E C I F I C A T I O N M D R - 6 0 - 5 M D R - 6 0 - 1 2 M D R - 6 0 - 2 4 M D R - 6 0 - 4 8 M O D E L D C V O L T A G E R A T E D C U R R E N T C U R R E N T R A N G E R A T E D P O W E R O U T P U T V O L T A G E A D J . R A N G E L I N E R E G U L A T I O N L O A D R E G U L A T I O N S E T U P , R I S E T I M E N o t e . 5 H O L D U P T I M E ( T y p . ) V O L T A G E R A N G E F R E Q U E N C Y R A N G E E F F I C I E N C Y ( T y p . ) A C C U R R E N T ( T y p . ) I N P U T I N R U S H C U R R E N T ( T y p . ) S A F E T Y S T A N D A R D S W O R K I N G H U M I D I T Y W O R K I N G T E M P . S T O R A G E T E M P . , H U M I D I T Y T E M P . C O E F F I C I E N T V I B R A T I O N M T B F D I M E N S I O N O T H E R S N O T E P A C K I N G O V E R L O A D O V E R V O L T A G E 5 V 1 2 V 2 4 V 4 8 V 1 0 A 5 A 2 . 5 A 1 . 2 5 A 0 ~ 1 0 A 0 ~ 5 A 0 ~ 2 . 5 A 0 ~ 1 . 2 5 A 5 0 W 6 0 W 6 0 W 6 0 W 8 0 m V p - p 1 2 0 m V p - p 1 5 0 m V p - p 2 4 ~ 3 0 V 2 0 0 m V p - p 4 8 ~ 5 6 V ± 2 . 0 % ± 1 . 0 % ± 1 . 0 % ± 1 . 0 % 1 2 ~ 1 5 V 5 ~ 6 V ± 1 . 0 % ± 1 . 0 % ± 1 . 0 % ± 1 . 0 % ± 1 . 5 % ± 1 . 0 % ± 1 . 0 % ± 1 . 0 % 5 0 0 m s , 3 0 m s / 2 3 0 V A C 5 0 0 m s , 3 0 m s / 1 1 5 V A C a t f u l l l o a d 5 0 m s / 2 3 0 V A C 2 0 m s / 1 1 5 V A C a t f u l l l o a d 8 5 ~ 2 6 4 V A C 1 2 0 ~ 3 7 0 V D C 4 7 ~ 6 3 H z 7 8 % 8 6 % 8 8 % 8 7 % 1 . 8 A / 1 1 5 V A C 1 A / 2 3 0 V A C C O L D S T A R T 3 0 A / 1 1 5 V A C 6 0 A / 2 3 0 V A C 1 0 5 ~ 1 5 0 % r a t e d o u t p u t p o w e r P r o t e c t i o n t y p e : C o n s t a n t c u r r e n t l i m i t i n g , r e c o v e r s a u t o m a t i c a l l y a f t e r f a u l t c o n d i t i o n i s r e m o v e d 6 . 2 5 ~ 7 . 2 5 V P r o t e c t i o n t y p e : S h u t d o w n o / p v o l t a g e , r e - p o w e r o n t o r e c o v e r 1 5 . 6 ~ 1 8 V 3 1 . 2 ~ 3 6 V 5 7 . 6 ~ 6 4 . 8 V - 2 0 ~ + 7 0 °C ( R e f e r t o " D e r a t i n g C u r v e " ) 2 0 ~ 9 0 % R H n o n - c o n d e n s i n g - 4 0 ~ + 8 5 °C , 1 0 ~ 9 5 % R H ± 0 . 0 3 % / °C ( 0 ~ 5 0 °C ) C o m p o n e n t : 1 0 ~ 5 0 0 H z , 2 G 1 0 m i n . / 1 c y c l e , p e r i o d f o r 6 0 m i n . e a c h a l o n g X , Y , Z a x e s ; M o u n t i n g : C o m p l i a n c e t o I E C 6 0 0 6 8 - 2 - 6 2 9 9 . 2 K h r s m i n . M I L - H D B K - 2 1 7 F ( 2 5 °C )                                                              °C                                                                                                                                                                                                                                                                                                                                                                                                                                                                                     F i l e N a m e : M D R - 6 0 - S P E C 2 0 1 4 - 1 0 - 2 2 6 0 W S i n g l e O u t p u t I n d u s t r i a l D I N R a i l P o w e r S u p p l y M D R - 6 0 s e r i e s R I P P L E & N O I S E ( m a x . ) N o t e . 2 V O L T A G E T O L E R A N C E N o t e . 3 E N V I R O N M E N T P R O T E C T I O N S A F E T Y & E M C ( N o t e 4 ) W I T H S T A N D V O L T A G E I S O L A T I O N R E S I S T A N C E ‧                        ‧                                       ‧                       ‧                             ‧       ,                         ‧                   ‧              ‧                          ‧                    ‧             ■         4 0 * 9 0 * 1 0 0 m m ( W * H * D ) 0 . 3 3 K g ; 4 2 p c s / 1 4 . 8 K g / 0 . 8 2 C U F T .. L E A K A G E C U R R E N T < 1 m A / 2 4 0 V A C I / P - O / P : 3 K V A C I / P - F G : 2 K V A C O / P - F G : 0 . 5 K V A C I / P - O / P , I / P - F G , O / P - F G : > 1 0 0 M O h m s / 5 0 0 V D C / 2 5 °C / 7 0 % R H F U N C T I O N D C O K S I G N A L R e l a y c o n t a c t r a t i n g ( m a x . ) : 3 0 V / 1 A r e s i s t i v e C o m p l i a n c e t o E N 5 5 0 1 1 , E N 5 5 0 2 2 ( C I S P R 2 2 ) , E N 6 1 2 0 4 - 3 C l a s s B , E N 6 1 0 0 0 - 3 - 2 , - 3 Compliance to EN61000-4-2, 3, 4, 5, 6, 8, 1 1, EN55024, EN61000-6-2, EN61204-3, heavy industry level, criteria A E M C I M M U N I T Y E M C E M I S S I O N U L 5 0 8 , U L 6 0 9 5 0 - 1 , T U V E N 6 0 9 5 0 - 1 , C l a s s I , D i v . 2 G r o u p A , B , C , D H a z a r d o u s L o c a t i o n s T 4 a p p r o v e d

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