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Home My WebLink About16090079 Civil PlansM O N O N T R A I L 1 s t A V E N U E S W 4 t h S T R E E T S W 4 t h S T R E E T S W FUTURE PLAZA (BY OTHERS) Future Commercial Building 7,180 gsf Future Commercial Building 2,545 gsf 1st Floor Commercial Use 5,192 gsf Proposed Parking Garage/Commercial Use 581 Spaces 2nd-5th Story Building Connection Proposed 5 Story Building Mixed Use Office / Commercial 142,200 gsf Commercial - 5,349 sf Office - 134,758 sf 1st Floor Commercial Use 2,592 gsf BLOCK 2 G BLOCK 1A BLOCK 1C MATCHLINE MO N O N A V E N U E M O N O N T R A I L RO W B O U N D A R Y ROW BOUNDARY ROW BOUNDARY RO W B O U N D A R Y RO W B O U N D A R Y RO W B O U N D A R Y RO W B O U N D A R Y RO W B O U N D A R Y EXISTING 1 STORY WAREHOUSE RO W B O U N D A R Y MO N O N A V E N U E MO N O N A V E N U E WO R K W I T H I N M O N O N A V E . R . O . W B Y O T H E R S S H O W N F O R R E F . O N L Y WO R K W I T H I N M O N O N A V E . R . O . W B Y O T H E R S S H O W N F O R R E F . O N L Y A C C A C C C C A A B C D C C I J J I I I LK G G G B G A A A B F B B B F F B D B LK F D L J L B B F L J I D F C G L G B F C D F B C H H M M M M M M M M M M M M M M M M M M C C O N N N H H G G G G M C GG G G G G O O BLOCK 1B 14,845.32 SF 0.34± Acres SITE KEY NOTES: A B C D E F G H I J K L M N SITE LEGEND: PROPOSED STORMWATER EASEMENT 2 n d S T R E E T S W MATCHLINE MO N O N A V E N U E M O N O N T R A I L RO W B O U N D A R Y F NORTH BE B JF E AC H 1" = 2 0 ' SI T E L A Y O U T P L A N C201 05 P R E L I M I N A R Y NOT FOR CONSTRUCTION 8 A B 34567 12 C D E F G H 8 34567 12 A B C D E F G H DE S C R I P T I O N DA T E NO RE V I S I O N R E C O R D ( 2 K L R 6 W U H H W Ã 6 X L W H * , Q G L D Q D S R O L V , 1 Ã ww w . c e c i n c . c o m DA T E : DW G S C A L E : DR A W N B Y : CH E C K E D B Y : AP P R O V E D B Y : PR O J E C T N O : SHEET OF DRAWING NO.: 15 1 - 4 1 5 MA Y 1 0 , 2 0 1 6 27 OL D T O W N D E V E L O P M E N T CA R M E L M I D T O W N BL O C K S 1 & 2 4T H S T R E E T S W & 1 S T A V E N U E S W CA R M E L , I N D I A N A P R O F E SSIONA L E N G I N E E R INDIA N A A A R O N C. H U R T PE10300058 STATE OF -oN R E G I S TER E D * H A N D S I G N A T U R E O N F I L E PROPERTY DATA: ZONING DATA: ADJACENT ZONING CLASSIFICATIONS: BUILDING DATA: SETBACKS LOT COVERAGE DATA: PARKING DATA: SITE DATA: GENERAL LAYOUT NOTES: REFERENCE: UTILITY NOTE: ADDITIONAL CITY OF CARMEL NOTES: ADJACENT LAND USE: FLOOD INFORMATION NOTE: 0 1 4 0 0 0 D E L E G A T E D D E S I G N R E Q U I R E M E N T S S S E 1 . A S p e c i a l t y S t r u c t u r a l E n g i n e e r ( S S E ) , r e g i s t e r e d i n t h e s t a t e o f t h e p r o j e c t , s h a l l b e r e s p o n s i b l e f o r t h e s t r u c t u r a l d e s i g n o f t h e f o l l o w i n g p r o d u c t s a n d s y s t e m s c o m p l y i n g w i t h s p e c i f i c p e r f o r m a n c e a n d d e s i g n c r i t e r i a i n d i c a t e d . 1 . S t e e l J o i s t s , j o i s t g i r d e r s , b r i d g i n g a n d a c c e s s o r i e s . 2 . S t r u c t u r a l S t e e l C o n n e c t i o n s , e x c e p t a s s h o w n o n d r a w i n g s . A I S C O p t i o n 2 ( D e t a i l e r ) : S i m p l e s h e a r c o n n e c t i o n s . A I S C O p t i o n 3 ( S S E ) : A l l o t h e r c o n n e c t i o n s n o t s h o w n . 3 . C o l d - F o r m e d S t e e l C F S w a l l s t u d s , C F S f l o o r j o i s t s a n d a c c e s s o r i e s . 4 . S o i l m o d i f i c a t i o n s y s t e m . S H A L L O W F O U N D A T I O N A N D S L A B O N G R A D E N O T E S S F 1 . S o i l t o b e s t r i p p e d , c o m p a c t e d a n d t e s t e d i n a c c o r d a n c e w i t h t h e r e c o m m e n d a t i o n s o f t h e s o i l s e n g i n e e r a n d p r o j e c t s p e c i f i c a t i o n s . S F 2 . F o o t i n g s s h a l l b e p l a c e d o n f i r m , u n d i s t u r b e d s o i l o r o n e n g i n e e r e d f i l l . E n g i n e e r e d F i l l : N a t u r a l l y o r a r t i f i c i a l l y g r a d e d m i x t u r e o f n a t u r a l o r c r u s h e d g r a v e l , c r u s h e d s t o n e , a n d n a t u r a l o r c r u s h e d s a n d ; A S T M D 2 9 4 0 ; w i t h a t l e a s t 9 0 p e r c e n t p a s s i n g a 1 - 1 / 2 - i n c h s i e v e a n d n o t m o r e t h a n 1 2 p e r c e n t p a s s i n g a N o . 2 0 0 s i e v e . S F 3 . S l a b s s h a l l b e p l a c e d o n c o m p a c t e d , f r e e - d r a i n i n g , f r o s t - f r e e d r a i n a g e c o u r s e . D r a i n a g e C o u r s e : N a r r o w l y g r a d e d m i x t u r e o f w a s h e d c r u s h e d s t o n e , o r c r u s h e d o r u n c r u s h e d g r a v e l ; A S T M D 4 4 8 ; c o a r s e - a g g r e g a t e g r a d i n g S i z e 5 7 ; w i t h 1 0 0 p e r c e n t p a s s i n g a 1 - 1 / 2 - i n c h s i e v e a n d 0 t o 5 p e r c e n t p a s s i n g a N o . 8 s i e v e . A l l f i l l s h a l l b e c o m p a c t e d t o a m i n i m u m d r y d e n s i t y o f 9 5 % o f t h e m o d i f i e d P r o c t o r m a x i m u m d r y d e n s i t y ( A S T M - D 1 5 5 7 ) , p l a c e d i n 6 " t o 8 " l i f t s . P e a g r a v e l m a y n o t b e u s e d a s f i l l . U t i l i t y t r e n c h e s a n d e x c a v a t i o n s u n d e r t h e f o u n d a t i o n s o r s l a b s s h a l l m e e t t h e s a m e r e q u i r e m e n t s . S e e s o i l s i n v e s t i g a t i o n r e p o r t f o r f u r t h e r r e c o m m e n d a t i o n s . S F 4 . U n d e r c u t t i n g o f t h e s o i l f o r f o u n d a t i o n a n d / o r s l a b p l a c e m e n t m a y b e r e q u i r e d . T h e s e d r a w i n g s d o n o t i n d i c a t e t h e e n t i r e s c o p e o f u n d e r c u t t i n g , f i l l o r b a d s o i l r e m o v a l t h a t m a y b e r e q u i r e d t o a t t a i n t h e d e s i g n s o i l b e a r i n g p r e s s u r e s . I t i s t h e r e s p o n s i b i l i t y o f t h e c o n t r a c t o r t o o b t a i n a s o i l s i n v e s t i g a t i o n r e p o r t , b e f o r e b i d d i n g , t o a s s e s s t h e e x t e n t o f e x c a v a t i o n a n d c o m p a c t i o n t h a t m a y b e r e q u i r e d t o m e e t t h e d e s i g n c r i t e r i a . T h e c o n t r a c t o r s h a l l r e t a i n t h e s e r v i c e s o f a s o i l s e n g i n e e r t o m o n i t o r a l l b a c k f i l l i n g o p e r a t i o n s a n d t o i n s p e c t f o o t i n g b e a r i n g m a t e r i a l . A r e p o r t c e r t i f i e d b y t h e s o i l s e n g i n e e r s h a l l b e f u r n i s h e d t o t h e a r c h i t e c t / e n g i n e e r v e r i f y i n g t h a t a l l f o u n d a t i o n s w e r e p l a c e d o n a m a t e r i a l c a p a b l e o f s u s t a i n i n g t h e d e s i g n b e a r i n g p r e s s u r e s . S F 5 . I f d e w a t e r i n g i s r e q u i r e d , s u m p s s h a l l n o t b e p l a c e d w i t h i n t h e f o u n d a t i o n e x c a v a t i o n . S F 6 . M a i n t a i n a m a x i m u m s l o p e b e t w e e n a d j a c e n t f o o t i n g b e a r i n g e l e v a t i o n s o f 2 h o r i z o n t a l t o 1 v e r t i c a l . M a i n t a i n a 2 h o r i z o n t a l t o 1 v e r t i c a l s l o p e n e x t t o e x i s t i n g f o u n d a t i o n s t o a v o i d u n d e r m i n i n g f o u n d a t i o n s . S F 7 . N o h o r i z o n t a l j o i n t s a r e p e r m i t t e d i n a n y f o u n d a t i o n . V e r t i c a l j o i n t s a r e p e r m i t t e d o n l y i n w a l l f o o t i n g s . S F 8 . S h a l l o w f o u n d a t i o n s m a y b e e a r t h - f o r m e d w h e r e t h e e x c a v a t i o n p e r m i t s . I f e a r t h - f o r m i n g i s u s e d , a d d 2 " t o t h e w i d t h a n d l e n g t h o f a l l f o u n d a t i o n s . S F 9 . T h e b o t t o m o f a l l f o u n d a t i o n s s h a l l b e a m i n i m u m o f l o c a l f r o s t d e p t h b e l o w f i n a l g r a d e . 0 3 3 0 0 0 C A S T - I N - P L A C E C O N C R E T E N O T E S R C 1 . A l l c o n c r e t e s h a l l h a v e t h e f o l l o w i n g 2 8 d a y c o m p r e s s i v e s t r e n g t h s : S T R E N G T H L O C A T I O N 3 0 0 0 p s i - 0 % A E A l l f o u n d a t i o n s a n d f o o t i n g s 4 0 0 0 p s i - 6 % A E E x t e r i o r s l a b s , p i e r s , w a l l s , c o l u m n s , g r a d e b e a m s a n d c o n c r e t e e x p o s e d t o f r e e z i n g 4 0 0 0 p s i - 0 % A E I n t e r i o r s l a b s , f i l l f o r m e t a l d e c k a n d a l l o t h e r i n t e r i o r c o n c r e t e R C 2 . A l l r e i n f o r c i n g s h a l l c o n f o r m t o t h e f o l l o w i n g c o n c r e t e c o v e r : C O V E R L O C A T I O N 3 " F o u n d a t i o n s & F o o t i n g s : A l l s u r f a c e s ; E x t e r i o r S l a b s : B o t t o m ; G r a d e B e a m s & T r e n c h F o o t i n g s : A l l s u r f a c e s ; A l l c o n c r e t e c a s t a g a i n s t s o i l 2 " E x t e r i o r W a l l s , A l l P i e r s & A l l P i l a s t e r s : A l l s u r f a c e s ; E x t e r i o r S l a b s : T o p ; A l l e x t e r i o r c o n c r e t e 1 1 / 2 " I n t e r i o r b e a m s , c o l u m n s & w a l l s : A l l s u r f a c e s ; A l l c o n c r e t e n o t e x p o s e d t o w e a t h e r o r i n c o n t a c t w i t h g r o u n d 3 / 4 " I n t e r i o r s l a b s & W a l l s R C 3 . W e l d e d W i r e F a b r i c ( W W F ) f o r s l a b s a n d f i l l f o r m e t a l d e c k s h a l l b e p l a c e d i n t h e u p p e r - t h i r d o f t h e s l a b o r f i l l . S e e d e t a i l s . R C 4 . A l l r e i n f o r c i n g s t e e l s h a l l b e d e t a i l e d , s u p p l i e d a n d p l a c e d i n a c c o r d a n c e w i t h A C I 3 1 5 , A C I 3 1 8 a n d C R S I M S P - 1 . R C 5 . A l l r e i n f o r c i n g s t e e l s h a l l b e s h o p f a b r i c a t e d a n d , w h e r e a p p l i c a b l e , s h a l l b e w i r e d t o g e t h e r a n d c o n f o r m t o A S T M A - 6 1 5 , G r a d e 6 0 . R C 6 . C h a m f e r e d g e s o f e x p o s e d c o n c r e t e 3 / 4 " , u n l e s s n o t e d o t h e r w i s e . R C 7 . C o n t r a c t o r s h a l l m a k e f o u r , 6 " x 1 2 " t e s t c y l i n d e r s f o r e a c h 5 0 c u b i c y a r d s o f c o n c r e t e p o u r e d f o r e a c h d a y s o p e r a t i o n . B r e a k 1 a t 7 d a y s , 2 a t 2 8 d a y s a n d r e t a i n s p a r e . R C 8 . A l l w e l d e d w i r e f a b r i c s h a l l c o n f o r m t o A S T M A 1 8 5 , F y ( m i n ) o f 6 5 k s i . A l l w e l d e d w i r e f a b r i c l a p s s h a l l b e 8 " . R C 9 . A l l f i n i s h e d c o n c r e t e , c o n c r e t e f o r m w o r k a n d f a l s e w o r k s h a l l b e i n a c c o r d a n c e w i t h A C I 3 0 1 . C o n t r a c t o r i s s o l e l y r e s p o n s i b l e f o r t h e d e s i g n a n d c o n s t r u c t i o n o f a l l f o r m w o r k , f a l s e w o r k a n d s h o r i n g . R C 1 0 . P r o v i d e s l e e v e s f o r a l l o p e n i n g s i n g r a d e b e a m s o r w a l l s t o t o t a l l y s e p a r a t e p i p e f r o m c o n c r e t e . R C 1 1 . F o u n d a t i o n s m a y b e e a r t h - f o r m e d w h e r e t h e e x c a v a t i o n p e r m i t s . I f e a r t h - f o r m i n g i s u s e d , a d d 2 " t o t h e w i d t h , l e n g t h & t h i c k n e s s o f a l l f o u n d a t i o n s . R C 1 2 . P l a s t i c V a p o r R e t a r d e r : A S T M E 1 7 4 5 , C l a s s A , n o t l e s s t h a n 1 0 m i l s ( 0 . 2 5 m m ) t h i c k , s e e s p e c i f i c a t i o n s . I n c l u d e m a n u f a c t u r e r ' s r e c o m m e n d e d a d h e s i v e o r p r e s s u r e - s e n s i t i v e j o i n t t a p e . R C 1 4 . A d h e s i v e A n c h o r s a n d A d h e s i v e s U s e d f o r R e i n f o r c i n g A n c h o r a g e : 1 . T h e a d h e s i v e a n c h o r s y s t e m u s e d f o r p o s t - i n s t a l l e d a n c h o r a g e t o c o n c r e t e s h a l l c o n f o r m t o t h e r e q u i r e m e n t s o f t h e m o s t r e c e n t l y p u b l i s h e d A C I 3 5 5 . 4 . 2 . A d h e s i v e a n c h o r s i n d i c a t e d a r e t h e B a s i s - o f - D e s i g n . A p p r o v e d e q u a l m e e t i n g A C I 3 5 5 . 4 i s p e r m i t t e d . 3 . B u l k - m i x e d a d h e s i v e s a r e n o t p e r m i t t e d . 4 . A n c h o r s s h a l l b e s u p p l i e d a s a n e n t i r e s y s t e m w i t h m a n u f a c t u r e r ' s r e c o m m e n d a t i o n s a d h e r e d t o . 5 . A d h e s i v e a n c h o r s s h a l l b e i n s t a l l e d b y q u a l i f i e d p e r s o n n e l t r a i n e d t o i n s t a l l a d h e s i v e a n c h o r s . 6 . I n s t a l l a t i o n o f a d h e s i v e a n c h o r s h o r i z o n t a l l y o r u p w a r d l y i n c l i n e d s h a l l b e p e r f o r m e d b y p e r s o n n e l c e r t i f i e d b y t h e A C I / C R S I A d h e s i v e A n c h o r I n s t a l l e r C e r t i f i c a t i o n p r o g r a m . 7 . A d h e s i v e a n c h o r s i n s t a l l e d i n h o r i z o n t a l o r u p w a r d l y i n c l i n e d o r i e n t a t i o n s s h a l l b e c o n t i n u o u s l y i n s p e c t e d d u r i n g i n s t a l l a t i o n b y a n i n s p e c t o r s p e c i a l l y a p p r o v e d f o r t h a t p u r p o s e . R C 1 5 . B o n d i n g a g e n t f o r b o n d i n g f r e s h c o n c r e t e t o h a r d e n e d c o n c r e t e : A S T M C 1 0 5 9 / C 1 0 5 9 M , T y p e I I , n o n r e d i s p e r s i b l e , a c r y l i c e m u l s i o n o r s t y r e n e b u t a d i e n e . 0 5 1 2 0 0 S T R U C T U R A L S T E E L N O T E S S S 1 . A l l s t r u c t u r a l s t e e l s h a l l c o n f o r m t o t h e f o l l o w i n g : W S h a p e s A S T M A 9 9 2 , G r a d e 5 0 . A n g l e s , C h a n n e l s , P l a t e s , B a r s A S T M A 3 6 ( F y = 3 6 k s i ) H S S T u b e s A S T M A 5 0 0 , G r a d e B ( F y = 4 6 k s i ) H S S P i p e s A S T M A 5 0 0 , G r a d e B ( F y = 4 2 k s i ) A n c h o r R o d s A S T M F 1 5 5 4 , G r a d e 3 6 S S 2 . A l l s t e e l s h a l l b e d e t a i l e d , f a b r i c a t e d a n d e r e c t e d i n a c c o r d a n c e w i t h : A I S C 3 6 0 " S p e c i f i c a t i o n f o r S t r u c t u r a l S t e e l B u i l d i n g s " , A l l o w a b l e S t r e n g t h D e s i g n ( A S D ) A I S C 3 0 3 " C o d e o f S t a n d a r d P r a c t i c e " S S 3 . I f b e a m r e a c t i o n i s n o t i n d i c a t e d , d e s i g n c o n n e c t i o n f o r m i n i m u m 1 0 k r e a c t i o n . S S 4 A l l b o l t e d c o n n e c t i o n s s h a l l b e m a d e w i t h 3 / 4 " d i a m e t e r , A 3 2 5 b o l t s w i t h n u t s a n d w a s h e r s , u n l e s s o t h e r w i s e n o t e d . A l l c o n n e c t i o n s s h a l l b e s h e a r b e a r i n g c o n n e c t i o n s t i g h t e n e d t o s n u g - t i g h t c o n d i t i o n , u n l e s s o t h e r w i s e n o t e d . S S 5 . A l l s h o p a n d f i e l d w e l d s s h a l l b e m a d e u s i n g E 7 0 e l e c t r o d e s o r e q u i v a l e n t . S S 6 . A l l h e a d e d c o n c r e t e a n c h o r s s h a l l b e A S T M A 1 0 8 ( F y = 5 0 k s i ) , 3 / 4 " d i a m e t e r x 4 " a f t e r w e l d i n g , u n l e s s n o t e d o t h e r w i s e . S S 7 . S t e e l f a b r i c a t o r s h a l l o b t a i n t h e s i z e a n d l o c a t i o n o f a l l o p e n i n g s f o r g r i l l e s , l o u v e r s , e t c . b e f o r e p r o c e e d i n g w i t h t h e f a b r i c a t i o n a n d e r e c t i o n o f a n y r e q u i r e d f r a m e s . S S 8 . P r o v i d e H e c k m a n # 1 2 9 a n d # 1 3 0 c h a n n e l s l o t a n d c h a n n e l s l o t a n c h o r s a t a l l c o l u m n s t h a t a b u t m a s o n r y w a l l s , u n l e s s n o t e d . S S 9 . P r o v i d e t e m p o r a r y b r a c i n g o f t h e s t r u c t u r e u n t i l a l l p e r m a n e n t l a t e r a l s u p p o r t i s i n p l a c e . S S 1 0 . S t r u c t u r e S t a b i l i t y : T h e e n t i r e r o o f a n d / o r f l o o r d e c k i n g m a t e r i a l s m u s t b e f u l l y e r e c t e d a n d c o n n e c t e d t o t h e s u p p o r t i n g s t e e l b e f o r e t e m p o r a r y , e r e c t i o n b r a c i n g i s r e m o v e d . S S 1 1 . R D = R o o f D r a i n l o c a t i o n . P r o v i d e s t e e l f r a m e f o r d r a i n s . S e e o t h e r d r a w i n g s f o r a c t u a l d r a i n t y p e , n u m b e r , s i z e , e t c . C o o r d i n a t e w i t h d r a i n c o n t r a c t o r . S S 1 2 . A l l e l e m e n t s a b o v e r o o f s h a l l b e g a l v a n i z e d . 0 5 2 1 0 0 S T E E L J O I S T N O T E S S J 1 . P r o v i d e a l l j o i s t s , b r i d g i n g a n d a c c e s s o r i e s f o r t h e c o m p l e t e e r e c t i o n o f j o i s t s i n a c c o r d a n c e w i t h t h e c u r r e n t S t e e l J o i s t I n s t i t u t e " S T A N D A R D S P E C I F I C A T I O N S A N D L O A D T A B L E S F O R O P E N W E B S T E E L J O I S T S A N D J O I S T G I R D E R S " a n d U n d e r w r i t e r s L a b o r a t o r i e s " S T A N D A R D , F I R E T E S T S O F B U I L D I N G C O N S T R U C T I O N A N D M A T E R I A L S " . S J 2 . B r i d g i n g s h a l l b e c o m p l e t e l y e r e c t e d a n d j o i s t s a l i g n e d b e f o r e a n y c o n s t r u c t i o n l o a d s a r e p l a c e d o n j o i s t s . S J 3 . D o n o t w e l d b o t t o m c h o r d o f j o i s t s t o c o l u m n s u n l e s s n o t e d o n d r a w i n g s . S J 4 . I n s t a l l e r e c t i o n b o l t s a t a l l j o i s t g i r d e r t o c o l u m n a n d j o i s t t o c o l u m n c o n n e c t i o n s . S J 5 . W h e r e b a l l a s t e d r o o f i n g i s n o t s h o w n o n a r c h i t e c t u r a l d r a w i n g s , p r o v i d e u p l i f t b r i d g i n g a t a l l j o i s t s a s p e r " S T A N D A R D S P E C I F I C A T I O N S A N D L O A D T A B L E S F O R O P E N W E B S T E E L J O I S T S A N D J O I S T G I R D E R S " f o r a n e t u p l i f t l o a d o f 1 2 p s f , u n l e s s n o t e d o r s h o w n o t h e r w i s e . 0 5 3 1 0 0 S T E E L D E C K N O T E S M D 1 . A l l m e t a l d e c k m a t e r i a l , f a b r i c a t i o n a n d i n s t a l l a t i o n s h a l l c o n f o r m t o S t e e l D e c k I n s t i t u t e " S D I S P E C I F I C A T I O N S A N D C O M M E N T A R Y " a n d " C O D E O F R E C O M M E N D E D S T A N D A R D P R A C T I C E " , C u r r e n t e d i t i o n , u n l e s s n o t e d . M D 2 . F A S T E N I N G D E C K 1 . R o o f d e c k s h a l l b e w e l d e d u s i n g 5 / 8 " d i a m e t e r p u d d l e w e l d s , 3 6 / 4 p a t t e r n w i t h ( 1 ) # 1 0 T E K s i d e l a p f a s t e n e r u n l e s s o t h e r w i s e s h o w n i n t y p i c a l d e t a i l o r i n d i c a t e d o n d r a w i n g s . 2 . F l o o r d e c k s h a l l b e w e l d e d u s i n g 3 / 4 " d i a m e t e r p u d d l e w e l d s , 3 6 / 4 p a t t e r n u n l e s s o t h e r w i s e s h o w n i n t y p i c a l d e t a i l o r i n d i c a t e d o n d r a w i n g s M D 3 . P r o v i d e T S 2 1 / 2 x 2 1 / 2 x 1 / 8 d e c k s u p p o r t , f i e l d w e l d e d t o j o i s t o r b e a m a t a l l d e c k s p a n c h a n g e s . M D 4 . P r o v i d e L 3 x 3 x 1 / 4 d e c k s u p p o r t a t a l l c o l u m n s w h e r e r e q u i r e d , u n l e s s n o t e d . M D 5 . P r o v i d e 2 0 g a u g e c o v e r p l a t e a t a l l r o o f d e c k s p a n c h a n g e s . M D 6 . P r o v i d e L 3 x 3 x 1 / 4 a t a l l u n s u p p o r t e d e d g e s o f d e c k a n d a r o u n d r o o f p e r i m e t e r , u n l e s s o t h e r w i s e n o t e d . M D 7 . A l l d e c k s h a l l b e p r o v i d e d i n a m i n i m u m o f 3 - s p a n l e n g t h s w h e r e p o s s i b l e . 0 5 4 0 0 0 C O L D F O R M E D S T E E L F R A M I N G N O T E S ( D E L G A T E D D E S I G N ) S F 1 . A l l c o l d f o r m e d s t e e l f r a m i n g s h a l l b e b y S p e c i a l t y S t r u c t u r a l E n g i n e e r , s e e s p e c i f i c a t i o n s . S F 2 . A l l d e s i g n a n d c o n s t r u c t i o n o f c o l d f o r m e d s t e e l s h a l l c o m p l y w i t h t h e c o n t r a c t d o c u m e n t s , r e f e r e n c e d c o d e s , s t a n d a r d s , n o t e s , l a y o u t s a n d t h e f o l l o w i n g A m e r i c a n I r o n a n d S t e e l I n s t i t u t e ( A I S I ) d o c u m e n t s , i n c l u d i n g a l l A I S I r e f e r e n c e d d o c u m e n t s t h e r e i n : S 1 0 0 - 2 0 0 7 S p e c i f i c a t i o n S 2 0 0 - 2 0 0 7 G e n e r a l P r o v i s i o n s S 2 0 1 - 2 0 0 7 P r o d u c t D a t a S 2 1 0 - 2 0 0 7 F l o o r & R o o f S y s t e m s S 2 1 1 - 2 0 0 7 W a l l S t u d D e s i g n S 2 1 3 - 2 0 0 7 L a t e r a l D e s i g n w i t h S u p p l i m e n t N o . 1 S 2 1 2 - 2 0 0 7 H e a d e r D e s i g n S 2 1 4 - 2 0 0 7 T r u s s D e s i g n S F 3 . U n l e s s n o t e d o t h e r w i s e , p r o v i d e t h e f o l l o w i n g m i n i m u m m e m b e r s i z e s , u n l e s s l a r g e r s i z e o r l e s s e r s p a c i n g i s r e q u i r e d : T Y P E S I Z E E x t e r i o r W a l l S t u d s 6 0 0 S 1 6 2 - 5 4 I n t e r i o r L o a d - B e a r i n g S t u d s 6 0 0 S 1 6 2 - 5 4 S F 4 . A l l m e m b e r s a n d s y s t e m s s h a l l c o n f o r m t o t h e f o l l o w i n g m a x i m u m m o v e m e n t s : T Y P E L I V E I N D E X M A X I M U M E x t e r i o r W a l l S t u d s L / 6 0 0 1 / 2 " I n t e r i o r W a l l S t u d s L / 2 4 0 1 / 2 " E x t e r i o r c a n t i l e v e r e d p a r a p e t s L / 3 0 0 1 / 2 " S F 5 . T h e m o s t s t r i n g e n t r e q u i r e m e n t s s h a l l g o v e r n i n c o n f l i c t s b e t w e e n s p e c i f i e d c o d e s a n d s t a n d a r d s . S F 6 . A l l p r o d u c t s s h a l l h a v e f o u r - p a r t i d e n t i f i c a t i o n c o d e w h i c h i d e n t i f i e s s i z e , s t y l e a n d m a t e r i a l t h i c k n e s s o f e a c h m e m b e r . S F 7 . A l l m a t e r i a l s s h a l l c o n f o r m w i t h A S T M A 1 0 0 3 , s t r u c t u r a l g r a d e 3 3 o r s t r u c t u r a l g r a d e 5 0 . S F 8 . C o r r o s i o n p r o t e c t i o n f o r a l l m a t e r i a l s s h a l l c o m p l y w i t h A S T M A 6 5 3 . M i n i m u m , h o t - d i p p e d g a l v a n i z e d c o a t i n g w e i g h t f o r e x t e r i o r w a l l s a n d a l l r o o f m a t e r i a l s s h a l l b e G 9 0 . A l l o t h e r m a t e r i a l s s h a l l b e G 6 0 . S F 9 . P r o v i d e f a c t o r y p u n c h o u t s i n a l l w a l l s t u d s w h e r e r e q u i r e d . S F 1 0 . P r o v i d e s t a n d a r d c o l o r c o d i n g f o r a l l p r o d u c t s . S F 1 1 . P r o v i d e 1 / 2 " A S T M F 1 5 5 4 , G r a d e 3 6 h o o k e d a n c h o r b o l t s a t a l l s t e e l t r a c k s , u . n . o . A n c h o r b o l t s p a c i n g = 4 8 " O C , u . n . o . P r o v i d e a n c h o r b o l t a t 8 " f r o m t h e e n d s o f a l l w a l l s , u . n . o . S F 1 2 . F o r a l l n o n - l o a d b e a r i n g s t u d s , p r o v i d e d e f l e c t i o n c l i p s i s o l a t i n g t h e s t u d f r o m t h e p r i m a r y s t r u c t u r e . S F 1 3 . A l l t r a c k b u t t j o i n t s s h a l l b e a n c h o r e d t o a c o m m o n s t r u c t u r a l e l e m e n t . S F 1 4 . H o r i z o n t a l b r a c i n g o f w a l l s t u d s s h a l l b e p r o v i d e d a t 6 f e e t o n c e n t e r m a x i m u m . S F 1 5 . P l a c e j o i s t s a n d t r u s s e s d i r e c t l y o v e r w a l l s t u d s . S F 1 6 . F a s t e n i n g o f e l e m e n t s s h a l l b e s e l f - d r i l l i n g s c r e w s o r w e l d i n g o f s u f f i c i e n t s i z e t o t r a n s f e r r e q u i r e d l o a d s . A l l w e l d i n g o f g a l v a n i z e d s t e e l s h a l l b e t o u c h e d u p w i t h z i n c - r i c h p a i n t . M i n i m u m t h i c k n e s s o f m a t e r i a l f o r w e l d i n g i s 5 4 m i l . S F 1 7 . A l l s c r e w s s h a l l b e n o n - c o r r o s i v e , N o . 1 2 - 1 4 o r l a r g e r . S F 1 8 . S e e a r c h i t e c t u r a l d r a w i n g s f o r a l l n o n - s t r u c t u r a l s t u d r e q u i r e m e n t s . S F 1 9 . A l l f l o o r a n d r o o f t r u s s e s s h a l l h a v e a m i n i m u m f l a n g e w i d t h o f 1 5 / 8 " . S F 2 0 . F l o o r a n d r o o f t r u s s b o t t o m c h o r d s s h a l l b e d e s i g n e d f o r 1 0 p s f d e a d l o a d , n o t i n a d d i t i o n t o d e s i g n l o a d i n g . S F 1 9 . L a t e r a l F o r c e R e s i s t i n g S y s t e m ( L F R S ) s h a l l c o m p l y w i t h f o r c e s i n d i c a t e d . S h e a r w a l l s s h a l l b e T y p e I I , s t e e l s h e e t . C o o r d i n a t e s h e a r w a l l s w i t h h o l d o w n s a n d t i e s s h o w n . 3 1 2 0 1 0 S O I L M O D I F I C A T I O N - R A M M E D A G G R E G A T E P I E R N O T E S S M 1 . M o d i f y s o i l b e a r i n g c a p a c i t y u s i n g R a m m e d A g g r e g a t e P i e r ( R A P ) t e c h n i q u e s . S M 2 . S o i l s h a l l b e m o d i f i e d t o a c h i e v e t h e m i n i m u m a l l o w a b l e b e a r i n g c a p a c i t y s t a t e d . S M 3 . S e e G r a v i t y C o l u m n R e a c t i o n a n d B r a c i n g C o l u m n R e a c t i o n t a b l e s f o r d e s i g n r e a c t i o n s . S M 4 . R a m m e d A g g r e g a t e P i e r s s h a l l b e d e s i g n e d b y a p p r o v e d c o n t r a c t o r . NOT ALL N O T E S , D E S I G N A T O R S , S Y M B O L S O R A B B R E V I A T I O N S M A Y A P P L Y T O T H I S P R O J E C T S H E E T M E T A L C O N N E C T I O N S T A N D A R D S H V A C S Y M B O L S P I P I N G S Y M B O L S ABBREVIATIONS L I N E T Y P E S M E C H A N I C A L H V A C , P I P I N G & P L U M B I N G S Y M B O L S A N D A B B R E V I A T I O N S M E C H A N I C A L S H E E T I N D E X N O T E S Y M B O L S SHEET T I T L E SH E E T T I T L E Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com NOT ALL NOTES, D E S I G N A T O R S , S Y M B O L S O R A B B R E V I A T I O N S M A Y A P P L Y T O T H I S P R O J E C T S T E A M T R A P D E S I G N A T I O N P L U M B I N G & P I P I N G S Y M B O L S A N D A B B R E V I A T I O N S G E N E R A L N O T E S N O T E S Y M B O L S A B B R E V I A T I O N S S H E E T T I T L E S H E E T T I T L E D O M E S T I C W A T E R S E R V I C E S : S A N I T A R Y , S T O R M & V E N T S E R V I C E S : M E D I C A L G A S S E R V I C E S : M E C H A N I C A L P I P E S E R V I C E S : P I P E I N F O R M A T I O N ( G R A P H I C S ) P L U M B I N G S Y M B O L S A N D A B B R E V I A T I O N S P 0 0 1 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com F O U N D A T I O N P L U M B I N G P L A N P 1 0 1 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J G E N E R A L N O T E S P L A N N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com F I R S T F L O O R P L U M B I N G P L A N P 2 0 1 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J G E N E R A L N O T E S P L A N N O T E S S E C O N D F L O O R P L U M B I N G P L A N P 2 0 2 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S T H I R D F L O O R P L U M B I N G P L A N P 2 0 3 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S F O R T H F L O O R P L U M B I N G P L A N P 2 0 4 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com G E N E R A L N O T E S P L A N N O T E S F O R T H F L O O R P L U M B I N G P L A N P 2 0 5 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com P L A N N O T E S G E N E R A L N O T E S Office: 317.860.2990 Fax: 317.860.2995 6831 East 32nd St. Suite 200 Indianapolis, IN 46226 www.deemfirst.com F I R S T F L O O R R E S T R O O M P L U M B I N G P L A N S E C O N D F L O O R R E S T R O O M P L U M B I N G P L A N THIRD FLOOR RESTROOM PLUMBING PLAN F O U R T H F L O O R R E S T R O O M P L U M B I N G P L A N F I F T H F L O O R R E S T R O O M P L U M B I N G P L A N FOUNDATION RESTROOM PLUMBING PLAN P L U M B I N G E N L A R G E D P L A N S P 3 0 1 1 6 0 3 2 G O W 0 6 . 2 4 . 2 0 1 6 M L J IG EM US B IG EM EM WP WP US B EM L5 - 2 0 R L 5 - 2 0 R CB CR DC DS EA GB H IC K MS PB CA 15 c d 15 c d S H S D FS TS PS AS EP ES ET IM R AT S W A SB DE S I G N B U I L D P R O J E C T - S Y M B O L S , A B B R E V I A T I O N S , A ND G E N E R A L S P E C I F I C A T I O N S SO M E S Y M B O L S O R A B B R E V I A T I O N S M A Y NO T B E U S E D O N T H I S P R O J E C T ST A N D A R D A B B R E V I A T I O N S A AM P E R E S AC AL T E R N A T I N G CU R R E N T AF AM P E R E FU S E AF C AB O V E FI N I S H E D CE I L I N G AF F AB O V E FI N I S H E D FL O O R AF G AB O V E FI N I S H E D GR A D E AH U AI R HA N D L I N G UN I T AI C AM P E R E IN T E R R U P T I N G CA P A C I T Y AL AL U M I N U M AR C H AR C H I T E C T ( U R A L ) AT S AU T O M A T I C TR A N S F E R SW I T C H AU T O AU T O M A T I C AV G AV E R A G E BF C BE L O W FI N I S H E D CE I L I N G BF G BE L O W FI N I S H E D GR A D E BH P BR A K E HO R S E P O W E R BP S BO O S T E R PO W E R SU P P L Y BT M BO T T O M C CO N D U I T CB CI R C U I T BR E A K E R C/ C CE N T E R TO CE N T E R CC T V CL O S E D CI R C U I T TE L E V I S I O N CF CU B I C FE E T CK T CI R C U I T CL CE N T E R L I N E CL G CE I L I N G CO M M CO M M U N I C A T I O N S CO M P CO M P R E S S O R CO N T CO N T I N U O U S CR CR I T I C A L LO A D CT CU R R E N T TR A N S F O R M E R CU CO P P E R DC DI R E C T CU R R E N T DP DI S T R I B U T I O N PA N E L DP S T DO U B L E PO L E , SI N G L E TH R O W DW G DR A W I N G DW H DO M E S T I C WA T E R HE A T E R EC EL E C T R I C A L CO N T R A C T O R EF EX H A U S T FA N EG C EQ U I P M E N T GR O U N D I N G CO N D U C T O R EM EM E R G E N C Y (L O A D ) EP O EM E R G E N C Y PO W E R OF F EQ U I P EQ U I P M E N T EW C EL E C T R I C WA T E R CO O L E R EW H EL E C T R I C WA T E R HE A T E R EX EX I T EX H EX H A U S T EX P EX P L O S I O N P R O O F EX T EX T E R I O R FA FI R E AL A R M FA A P FA AN N U N C I A T O R PA N E L FA C P FA CO N T R O L PA N E L FC FL A T CA B L E FC U FA N CO I L UN I T FF C FO O D FA C I L I T Y CO N T R A C T O R FF S FO O D FA C I L I T Y SU P P L I E R FH C FI R E HO S E CA B I N E T FI X T FI X T U R E FL U O R FL U O R E S C E N T FP C FI R E PR O T E C T I O N CO N T R A C T O R FS S FU S E D SA F E T Y SW I T C H FT G FO O T I N G FT L FE E D TH R O U G H LU G S FV FU L L VO L T A G E G, GN D GR O U N D GA L V GA L V A N I Z E D GC GE N E R A L CO N T R A C T O R GE C GR O U N D I N G EL E C T R O D E CO N D U C T O R GE N GE N E R A T O R GF C I GR O U N D FA U L T CI R C U I T IN T E R R U P T O R GF P GR O U N D FA U L T PR O T E C T I O N GT B GE N E R A T O R TA P BO X H, HV HI G H VO L T A G E HI D HI G H IN T E N S I T Y DI S C H A R G E HO HA N D OP E R A T E D HO A HA N D ‐OF F ‐AU T O HP HO R S E P O W E R HP S HI G H PR E S S U R E SO D I U M HT R HE A T E R Hz HE R T Z IC IN T E R C O M ID IN S I D E DI A M E T E R IS G IS O L A T E D GR O U N D J, JB JU N C T I O N BO X KE C KI T C H E N EQ U I P M E N T CO N T R A C T O R kV KI L O V O L T S kV A KI L O V O L T ‐AM P E R E S kV A R KI L O V O L T ‐AM P E R E S RE A C T I V E kW KI L O W A T T S L or LV LO W VO L T A G E LB PO U N D LC P LI G H T I N G CO N T R O L PA N E L LF LI N E A R FE E T LP LI G H T I N G PA N E L LS LI F E SA F E T Y LO A D LT LI G H T LT G LI G H T I N G MA X MA X I M U M MC ME C H A N I C A L CO N T R A C T O R MC B MA I N CI R C U I T BR E A K E R MC C B MO L D E D CA S E CI R C U I T BR E A K E R MD P MA I N DI S T R I B U T I O N PA N E L ME C H ME C H A N I C A L MI N MI N I M U M MI S C MI S C E L L A N E O U S ML O MA I N LU G ON L Y MS B MA I N SW I T C H B O A R D NI C NO T IN CO N T R A C T OC P OV E R C U R R E N T PR O T E C T I O N OD OU T S I D E DI A M E T E R OF / C I OW N E R FU R N I S H E D , CO N T R A C T O R IN S T A L L E D OF / O I OW N E R FU R N I S H E D , OW N E R IN S T A L L E D OR OP E R A T I N G RO O M P PO L E PB PU S H BU T T O N PC PL U M B I N G CO N T R A C T O R PF PO W E R FA C T O R PH , Φ , Ø PH A S E PI V PO S T IN D I C A T O R VA L V E PL PI L O T LI G H T PN L PA N E L B O A R D PR E F A B PR E F A B R I C A T E D PT PN E U M A T I C TU B E PT S PN E U M A T I C TU B E ST A T I O N PT Z PA N ‐TI L T ‐ZO O M PW PA R T WI N D I N G PW R PO W E R RC P T RE C E P T A C L E RE F RE F R I G E R A T O R RM RO O M RP RE C E P T A C L E PA N E L RP M RE V O L U T I O N S PE R MI N U T E GE N E R A L P R O J E C T N O T E S 01 . AL L MA T E R I A L & WO R K M A N S H I P SH A L L COMPLY WITH ALL APPLICABLE CO D E S , SP E C I F I C A T I O N S , LO C A L OR D I N A N C E S , AND INDUSTRY STANDARDS. IN AL L CA S E S , GO O D EN G I N E E R I N G PR A C T I C E SH A L L BE FOLLOWED. 02 . RE F E R TO AR C H I C T E C T U R A L IN T E R I O R PL A N S TO COORDINATE THE LO C A T I O N S OF AL L WA L L MO U N T E D CO N T R O L S , EQUIPMENT, ETC. 03 . AL L CO N D U I T S , CA B I N E T S , CA B L E S , AN D BOXES SHALL BE SECURELY SU P P O R T E D FR O M ST R U C T U R A L ME M B E R S . 04 . AL L DI M E N S I O N S SH A L L BE OB T A I N E D FR O M THE ARCHITECTURAL AND CI V I L SI T E PL A N S . IN NO CA S E SH A L L TH E EL E C T R I C A L DRAWINGS BE SCALED. 05 . AL L DI M E N S I O N S SH O W N SH A L L BE FR O M FINISHED FLOOR TO THE CE N T E R L I N E OF TH E DE V I C E BO X , UN L E S S OT H E R W I S E NOTED. WHERE TWO HE I G H T S AR E GI V E N , TH E LO W E R OF TH E TW O HEIGHTS SHALL BE USED. 06 . VE R I F Y TH E EL E C T R I C A L RE Q U I R E M E N T S OF ALL EQUIPMENT SUPPLIED BY OT H E R S & CO N N E C T E D BY TH E E. C . , PR I O R TO INSTALLATION OF WIRING. THIS IN C L U D E S RE C E I V I N G & RE V I E W I N G AP P R O V E D SUBMITTALS FOR EQUIPMENT PR O V I D E D BY OT H E R BU I L D I N G TR A D E S . 07 . TH E EN T I R E SE T OF PR O J E C T DR A W I N G S HAS INFORMATION PERTAINING TO TH E CO N S T R U C T I O N OF TH E BU I L D I N G , AND THE E.C. SHALL REVIEW ALL DR A W I N G S TO CO O R D I N A T E TH E IN S T A L L A T I O N OF ELECTRICAL SYSTEMS. 08 . RE F E R TO TH E AR C H I T E C T U R A L RE F L E C T E D CEILING PLANS TO COORDINATE TH E IN S T A L L A T I O N OF LI G H T I N G FI X T U R E S & EQUIPMENT SUPPLIED BY OT H E R S . TH E E. C . SH A L L TA K E PA R T I C U L A R CARE TO COORDINATE WITH THE F. P . C AN D TH E M. C . 09 . RE F E R TO TH E AR C H I T E C T U R A L IN T E R I O R ELEVATIONS TO COORDINATE ALL WA L L MO U N T E D DE V I C E S WI T H CA B I N E T R Y & CASEWORK. ENSURE THAT ALL DE V I C E PL A T E S AN D OT H E R EQ U I P M E N T WI L L NOT CONFLICT WITH CO U N T E R T O P S , BA C K S P L A S H E S , WA L L TI L E , TRIM, ETC. 10 . AL L DE V I C E S MO U N T E D AB O V E A CO U N T E R T O P OR BACKSPLASH SHALL BE IN S T A L L E D AT TH E SA M E HE I G H T . 11 . DE V I C E S IN S T A L L E D IN BL O C K / T I L E D WA L L S SHALL BE INSTALLED WITH THE BO X SE T ON TO P OF NE A R E S T CO U R S E , WI T H THE OPENING FOR THE BOX CUT IN T O TH E CO U R S E AB O V E . AL L DE V I C E BO X E S SHALL BE INSTALLED ON TOP OF TH E CO U R S E NE A R E S T TO TH E SC H E D U L E D MOUNTING HEIGHT. 12 . WH E R E MU L T I P L E DE V I C E S OF TH E SA M E VOLTAGE ARE INSTALLED IN CL O S E PR O X I M I T Y , TH E Y SH A L L BE GA N G E D TOGETHER IN A COMMON BOX AN D CO V E R PL A T E . 13 . CO O R D I N A T E AL L FA S T E N E R S US E D WI T H THE WALL, CEILING, AND ST R U C T U R A L SY S T E M S IN US E ON TH I S PR O J E C T . THE E.C. SHALL TAKE PA R T I C U L A R CA R E NO T TO US E FA S T E N E R S IN A MANNER OR METHOD WHICH VO I D S TH E MA N U F A C T U R E R ' S WA R R A N T Y OR VIOLATES SAID MA N U F A C T U R E R ' S IN S T A L L A T I O N IN S T R U C T I O N S . GE N E R A L W I R I N G S P E C I F I C A T I O N S 01 . AL L WI R I N G SH A L L BE IN S T A L L E D PA R A L L E L & PERPINDICULAR TO THE BU I L D I N G ST R U C T U R A L ME M B E R S . 02 . AL T H O U G H NO T AL L BR A N C H WI R I N G & CONDUIT ARE SHOWN ON THESE DR A W I N G S , IT IS TH E IN T E N T OF TH E S E DO C U M E N T S THAT A COMPLETE BR A N C H WI R I N G SY S T E M BE IN S T A L L E D . 03 . A DE D I C A T E D CO P P E R E. G . C . SH A L L BE IN S T A L L E D IN ALL RACEWAYS. IN NO CA S E SH A L L TH E RA C E W A Y BE CO N S I D E R E D AN ACCEPTABLE E.G.C. 04 . IT SH A L L BE TH E E. C . ' S RE S P O N S I B I L I T Y TO VERIFY CONDUIT SIZES PRIOR TO IN S T A L L A T I O N , TO EN S U R E TH A T IT CA N AC C O M O D A T E ALL REQUIRED CO N D U C T O R S . 05 . IT SH A L L BE TH E E. C . ' S RE S P O N S I B I L I T Y TO VERIFY WIRE AMPACITY PRIOR TO IN S T A L L A T I O N , AN D TO BR I N G AN Y DI S C R E P A N C I E S TO THE DESIGNER FOR CL A R I F I C A T I O N IM M E D I A T E L Y ON FI N D I N G THEM. 06 . IT SH A L L BE TH E E. C . ' S RE S P O N S I B I L I T Y TO CONTACT ENGINEERING WITH AN Y QU E S T I O N S , CO N C E R N S , OR PR O P O S E D CHANGES PRIOR TO INSTALLING. 07 . CI R C U I T S MA Y BE CO M B I N E D IN CO N D U I T S , CABLES, OR RACEWAYS, PR O V I D E D TH A T TH E CO N D U C T O R S AR E PR O P E R L Y DERATED & THE CONDUIT IS SI Z E D PE R TH E NE C . UN D E R NO CI R C U M S T A N C E S SHALL MORE THAN NINE (9 ) CU R R E N T CA R R Y I N G CO N D U C T O R S BE IN S T A L L E D IN A SINGLE CONDUIT. 08 . TH E E. C . IS RE S P O N S I B L E FO R CO M P E N S A T I N G FOR VOLTAGE DROP AS FO L L O W S : A. AL L CO N D U C T O R S SH A L L BE SI Z E D TO PREVENT EXCESSIVE VOLTAGE DR O P . FE E D E R S SH A L L NO T EX C E E D 2% VOLTAGE DROP & BRANCH CI R C U I T S SH A L L NO T EX C E E D 3% VO L T A G E DROP. B. IN GE N E R A L , CO N D U C T O R S SH A L L NO T BE REQUIRED TO INCREASE MO R E TH A N TW O (2 ) SI Z E S FO R TH I S PU R P O S E , UNLESS NOTED OTHERWISE. C. TH E E. C . SH A L L VE R I F Y TH A T TH E WI R E SIZE SHOWN IS ADEQUATE BA S E D ON TH E AC T U A L RO U T E CH O S E N . D. TH E E. G . C . SH A L L IN C R E A S E PR O P O R T I O N A L L Y FROM THE SIZE RE Q U I R E D BY TH E NE C , AS RE Q U I R E D BY NEC 250.122(B). 09 . WI R E S SH A L L BE CO L O R CO D E D AS FO L L O W S : A. 24 0 / 1 2 0 V SY S T E M S = BL A C K (L 1 ) , RE D (L2), WHITE (N) B. 20 8 Y / 1 2 0 V SY S T E M S = BL A C K (A ) , RE D (B), BLUE (C), WHITE (N) C. 24 0 Δ /1 2 0 V SY S T E M S = BL A C K (A ) , OR A N G E (B), BLUE (C), WHITE (N) D. 48 0 Y / 2 7 7 V SY S T E M S = BR O W N (A ) , OR A N G E (B), YELLOW (C), GRAY (N) 10 . AL L PA N E L B O A R D S , SW I T C H B O A R D S , AN D SWITCHGEAR SHALL HAVE A PE R M A N E N T LE G E N D SH O W I N G TH E DE S I G N A T E D CONDUCTOR COLORS, AS RE Q U I R E D BY NE C 20 1 . 5 ( C ) ( 3 ) . RE C E P T A C L E S SI M P L E X RE C E P T A C L E DU P L E X RE C E P T A C L E DU P L E X RE C E P T A C L E , SP L I T ‐WI R E D DU P L E X RE C E P T A C L E , IS O L A T E D GR O U N D DU P L E X RE C E P T A C L E , EM E R G E N C Y PO W E R QU A D R U P L E X RE C E P T A C L E DU P L E X GF C I RE C E P T A C L E QU A D R U P L E X GF C I RE C E P T A C L E DU P L E X RE C E P T A C L E , W/ IN T E G R A L US B PO R T S QU A D R U P L E X RE C E P T A C L E , SP L I T ‐WI R E D QU A D R U P L E X RE C E P T A C L E , IS O L A T E D GR O U N D QU A D R U P L E X RE C E P T A C L E , EM E R G E N C Y PO W E R QU A D R U P L E X RE C E P T A C L E , W/ IN T E G R A L US B PO R T S DU P L E X GF C I RE C E P T A C L E , EM E R G E N C Y PO W E R QU A D R U P L E X GF C I RE C E P T A C L E , EM E R G E N C Y PO W E R DU P L E X GF C I RE C E P T A C L E , WE A T H E R P R O O F QU A D R U P L E X GF C I RE C E P T A C L E , WE A T H E R P R O O F SP E C I A L PU R P O S E RE C E P T A C L E ‐ NE M A CO N F I G U R A T I O N IS LI S T E D FO R EA C H LO C A T I O N DU P L E X RE C E P T A C L E , CE I L I N G MO U N T E D QU A D R U P L E X RE C E P T A C L E , CE I L I N G MO U N T E D SP E C I A L PU R P O S E RE C E P T A C L E , CE I L I N G OR I. T . RA C K MT D . ‐ NE M A CO N F I G U R A T I O N IS LI S T E D FO R EA C H LO C A T I O N FL O O R BO X , DU P L E X RE C E P T A C L E FL O O R BO X , QU A D R U P L E X RE C E P T A C L E FL O O R BO X , QU A D R U P L E X RE C E P T A C L E W/ DA T A SE C U R I T Y S Y S T E M S CA L L BU T T O N CA R D RE A D E R DO O R CO N T A C T DO O R SW I T C H EX I T AL A R M GL A S S BR E A K SE C U R I T Y HO R N IN T E R C O M ST A T I O N KE Y P A D MO T I O N SE N S O R PA N I C BU T T O N SE C U R I T Y CA M E R A DR A W I N G A N N O T A T I O N S FI R E A L A R M S Y S T E M S FI R E HO R N , WA L L MO U N T E D AT +9 0 " A. F . F . OR ‐6" B. F . C . FI R E ST R O B E , WA L L MO U N T E D AT +9 0 " A. F . F . OR ‐6" B. F . C . FI R E HO R N / S T R O B E , WA L L MO U N T E D AT +9 0 " A. F . F . OR ‐6" B. F . C . SM O K E DE T E C T O R ‐ PH O T O E L E C T R I C HE A T DE T E C T O R ‐ FI X E D TE M P E R A T U R E DU C T SM O K E DE T E C T O R ‐ PH O T O E L E C T R I C FL O W TA M P E R SW I T C H PR E S S U R E SW I T C H AL A R M SW I T C H EL E V A T O R PR I M A R Y RE C A L L IN P U T EL E V A T O R SE C O N D A R Y RE C A L L IN P U T EL E V A T O R SH U N T TR I P IN P U T MA N U A L PU L L ST A T I O N , +4 8 " A. F . F . AD D R E S S A B L E IN P U T MO D U L E , SI N G L E OR DU A L AS RE Q U I R E D AD D R E S S A B L E RE L A Y MO D U L E MA G N E T I C DO O R HO L D E R FI R E AL A R M CO N T R O L PA N E L FA C FI R E AL A R M AN N U N C I A T O R PA N E L FA A LI G H T I N G F I X T U R E S & D E V I C E S TY P I C A L DE S I G N A T I O N S FO R AL L FI X T U R E S : # = FI X T U R E TY P E , RE F E R TO FI X T U R E SC H E D U L E NL = IN D I C A T E S NI G H T LI G H T FI X T U R E , 24 HO U R OP E R A T I O N A, B = IN D I C A T E S SW I T C H LE G A = IN B O A R D LA M P S B = OU T B O A R D LA M P S SH A D I N G IN D I C A T E S FI X T U R E EI T H E R CO N T A I N S AN IN T E G R A L EM E R G E N C Y BA T T E R Y OP E R A T E D IN V E R T E R BA L L A S T OR IS CO N N E C T E D TO TH E LI F E SA F E T Y SY S T E M , WH E R E TH A T SY S T E M IS AV A I L A B L E . A, B NL # WA L L MO U N T E D DO C K LI G H T , PR O V I D E D BY OT H E R S EM E R G E N C Y EG R E S S LI G H T EM E R G E N C Y EX I T SI G N DO U B L E FA C E D EM E R G E N C Y EX I T SI G N EM E R G E N C Y EG R E S S EX I T SI G N DO U B L E FA C E D EM E R G E N C Y EG R E S S EX I T SI G N EM E R G E N C Y EG R E S S EX I T SI G N WI T H OU T D O O R RE M O T E HE A D #a LI G H T I N G CO N T R O L DE V I C E S a = IN D I C A T E S SW I T C H GR O U P CO N T R O L L E D BY DE V I C E # = DE V I C E TY P E DE S I G N A T I O N : BL A N K = SI N G L E PO L E OS = OC C U P A N C Y SE N S O R 3 = TH R E E WA Y D = DI M M E R 4 = FO U R WA Y LV = LO W VO L T A G E K = KE Y OP E R A T E D M = MO T O R RA T E D T = TI M E R WP = WE A T H E R PR O O F P = PI L O T LI G H T PB = PU S H BU T T O N #a DI G I T A L LI G H T I N G CO N T R O L SY S T E M DE V I C E a = IN D I C A T E S SW I T C H GR O U P CO N T R O L L E D BY DE V I C E # = IN D I C A T E S NU M B E R OF PR O G R A M M A B L E BU T T O N S OS #a CE I L I N G MO U N T E D OC C U P A N C Y SE N S O R a = IN D I C A T E S SW I T C H GR O U P CO N T R O L L E D BY DE V I C E # = DE V I C E TY P E DE S I G N A T I O N : BL A N K = LI N E VO L T A G E LV = LO W VO L T A G E D = DI G I T A L LI G H T I N G CO N T R O L SY S T E M DE V I C E PP #a PO W E R PA C K FO R LO W VO L T A G E CE I L I N G MO U N T E D OC C U P A N C Y SE N S O R S a = IN D I C A T E S SW I T C H GR O U P CO N T R O L L E D BY DE V I C E # = DE V I C E TY P E DE S I G N A T I O N : 1 = SI N G L E RE L A Y 2 = DU A L RE L A Y PO W E R D I S T R I B U T I O N FU S I B L E HE A V Y DU T Y DI S C O N N E C T SW I T C H ‐ NU M B E R IN D I C A T E S FU S E RA T I N G 30 A NO N ‐FU S I B L E HE A V Y DU T Y DI S C O N N E C T SW I T C H CO M B I N A T I O N MA G N E T I C ST A R T E R / H E A V Y DU T Y DI S C O N N E C T SW I T C H TR A N S F O R M E R FL U S H MO U N T E D PA N E L B O A R D SU R F A C E MO U N T E D PA N E L B O A R D 15 0 H P MO T O R SW I T C H B O A R D / S W I T C H G E A R MO T O R CO N T R O L CE N T E R / E L E C T R I C A L EQ U I P M E N T AU T O M A T I C TR A N S F E R SW I T C H TE L E C O M M U N I C A T I O N S DA T A OU T L E T TE L E / D A T A OU T L E T TE L E P H O N E OU T L E T CE I L I N G MO U N T E D WI R E L E S S AC C E S S TE L E C O M TE R M I N A L BA C K BO A R D , FI R E RA T E D 4' x 8 ' PL Y W O O D T V CO A X I A L TE L E V I S I O N OU T L E T PH A S E CO N D U C T O R S GR O U N D CO N D U C T O R (I F TW O AR E SH O W N , TH E SE C O N D SH A L L BE AN IS O L A T E D GR O U N D ) NE U T R A L CO N D U C T O R CI R C U I T S SI N G L E L I N E & C O N T R O L S TR A N S F O R M E R ‐ 3P H , 4W , DE L T A ‐WY E CO N N E C T E D N E L AU T O M A T I C TR A N S F E R SW I T C H T- 1 30 kV A 48 0 V 20 8 Y / 12 0 V KE Y E D DE M O L I T I O N PL A N NO T E KE Y E D NE W PL A N NO T E SE C T I O N VI E W RE F E R E N C E VI E W RE F E R E N C E , IN C L U D I N G DE T A I L S & EN L A R G E D PL A N S 1 E -30 1 1 E -50 1 0101 DI S C O N N E C T SW I T C H 10 0 A / 3 P H F 12 0 0 A LS I G DR A W O U T CI R C U I T BR E A K E R 40 0 A CI R C U I T BR E A K E R 60 A FU S E GR O U N D I N G / B O N D I N G CO N N E C T I O N K1 KI R K KE Y IN T E R L O C K PL U G ‐IN CO N N E C T I O N PO I N T BO L T / L U G / S C R E W CO N N E C T I O N 65 , 0 0 0 A AV A I L A B L E SY M M E T R I C A L FA U L T CU R R E N T SF 4 0 0 0 N FE E D E R CA B L E DE S I G N A T I O N AB O R T SW I T C H , SY S T E M TY P E AS SH O W N EP O SC C R SH O R T CI R C U I T CU R R E N T RA T I N G SG SU R G E GU A R D SN SO L I D NE U T R A L SP E C SP E C I F I C A T I O N S SQ FT SQ U A R E FE E T SS SA F E T Y SW I T C H SS B J SU P P L Y SI D E BO N D I N G JU M P E R ST D ST A N D A R D ST N ST A T I O N ST R ST R U C T U R ( E ) , ( A L ) SU S P SU S P E N D E D SW SW I T C H SW B D SW I T C H B O A R D SW G R SW I T C H G E A R TC C TE M P E R A T U R E CO N T R O L (C O N T R A C T O R ) , (C A B I N E T ) TE L E TE L E C O M M U N I C A T I O N TE M P TE M P O R A R Y TV TE L E V I S I O N TY P TY P I C A L UC R UN D E R CO U N T E R RE F R I G E R A T O R UG UN D E R G R O U N D UH UN I T HE A T E R UN O UN L E S S NO T E D OT H E R W I S E V VO L T VF D VA R I A B L E FR E Q U E N C Y DR I V E VP VA P O R P R O O F W/ WI T H W/ O WI T H O U T WP WE A T H E R P R O O F WT R WA T E R Z IM P E D A N C E C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com SYMBOLS &ABBREVIATIONS E001ELECTRICAL SHEET INDEX No. DRAWING TITLE REV. No. REV. DATE E001 SYMBOLS & ABBREVIATIONS E002 SPECIFICATIONS ‐ PAGE 1 E003 SPECIFICATIONS ‐ PAGE 2 E004 ENERGY CODE CALCULATIONS E201 ELECTRICAL & SYSTEMS PLAN ‐ FIRST FLOOR E202 ELECTRICAL & SYSTEMS PLAN ‐ SECOND FLOOR E203 ELECTRICAL & SYSTEMS PLAN ‐ THIRD FLOOR E204 ELECTRICAL & SYSTEMS PLAN ‐ FOURTH FLOOR E205 ELECTRICAL & SYSTEMS PLAN ‐ FIFTH FLOOR E206 ROOF ELECTRICAL PLAN E301 LIGHTING PLAN ‐ FIRST FLOOR E302 LIGHTING PLAN ‐ SECOND FLOOR E303 LIGHTING PLAN ‐ THIRD FLOOR E304 LIGHTING PLAN ‐ FOURTH FLOOR E305 LIGHTING PLAN ‐ FIFTH FLOOR E501 GROUNDING & CONNECTION DETAILS E601 SINGLE LINE DIAGRAM E603 PANEL SCHEDULES E604 PANEL SCHEDULES E701 FIRE ALARM DETAILS LU M I N A I R E S C H E D U L E TY P E Q T Y . D E S C R I P T I O N M A N U F A C T U R E R M O D E L L O A D L A M P L U M E N S C O M M E N T S / SP E C I A L IN S T R U C T I O N S F1 9 2 L E D LO W PR O F I L E RE C E S S E D TR O F F E R L S I IN D U S T R I E S LI G H T I N G OR AP P R O V E D EQ U A L LP R T 2 4 ‐LE D ‐HO ‐NW ‐UE 4 5 VA L E D 4 3 8 5 lm F2 2 8 4 ' LE D LE N S E D ST R I P FI X T U R E L S I IN D U S T R I E S LI G H T I N G OR AP P R O V E D EQ U A L SD L ‐4 ‐LE D ‐HO ‐NW ‐UE 4 4 VA L E D 4 9 9 0 lm S U R F A C E OR CH A I N MO U N T , AS RE Q U I R E D F3 2 0 C O M M E R C I A L WA L L BR A C K E T ‐ LE D ‐ WI T H EM E R G E N C Y PO W E R PA C K LS I IN D U S T R I E S LI G H T I N G OR AP P R O V E D EQ U A L W4 4 4 ‐LE D ‐HO ‐NW ‐UE ‐EM 5 VA L E D 5 2 6 5 lm F4 9 5 6 " RO U N D RE C E S S E D LE D DO W N L I G H T ‐ CL E A R AL Z A K RE F L E C T O R CO N T E C H LI G H T I N G OR AP P R O V E D EQ U A L RA 6 L N C ‐23 0 K ‐27 D 2 ‐CS T 4 3 2 2 L M ‐CL R 2 9 VA L E D S1 1 5 L E D WA L L SC O N C E U . S . AR C H I T E C T U R A L LI G H T I N G DS A P ‐LE D 7 0 VA L E D C O O R D I N A T E EL E V A T I O N S WI T H AR C H I T E C T U R A L DR A W I N G S S2 4 5 8 " RE C E S S E D LE D ‐ 19 2 1 LU M E N S ‐ CL E A R HA Z E FI N I S H ‐ WH I T E TR I M RI N G CO N T E C H LI G H T I N G OR AP P R O V E D EQ U A L RA L F 8 N C ‐CS T 8 L ‐34 W ‐30 K ‐MP 2 2 W ‐CL R 3 5 VA L E D EM E R G E N C Y L U M I N A I R E S C H E D U L E TY P E Q T Y . D E S C R I P T I O N M A N U F A C T U R E R M O D E L C O M M E N T S / SP E C I A L IN S T R U C T I O N S EM 3 2 S E L F ‐CO N T A I N E D EM E R G E N C Y FI X T U R E L S I LI G H T I N G OR AP P R O V E D EQ U A L EX 1 1 0 E M E R G E N C Y EX I T SI G N ‐ SI N G L E FA C E L S I LI G H T I N G OR AP P R O V E D EQ U A L EX 2 1 EX E M 1 5 C O M B I N A T I O N EM E R G E N C Y / EX I T SI G N L S I LI G H T I N G OR AP P R O V E D EQ U A L EX E M / R 3 C O M B I N A T I O N EM E R G E N C Y / EX I T SI G N WI T H RE M O T E HE A D S LS I LI G H T I N G OR AP P R O V E D EQ U A L NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DI V I S I O N 2 6 - E L E C T R I C A L 26 05 00 – CO M M O N WO R K RE S U L T S PA R T 1 ‐ SU M M A R Y OF WO R K 1. 1 R e f e r to Di v i s i o n 01 fo r co m p l e t e co n t r a c t ad m i n i s t r a t i o n de t a i l s . 1. 2 S p e c i f i c a t i o n s ar e co m p l e m e n t a r y to th e dr a w i n g s ; wh e r e om i s s i o n s or co n f l i c t ex i s t , re q u e s t wr i t t e n cl a r i f i c a t i o n , pr i o r to su b m i t t i n g bi d . Su b m i s s i o n of bi d in d i c a t e s ac c e p t a n c e of dr a w i n g s an d sp e c i f i c a t i o n s as ‐is . 1. 3 S p e c i f i c a t i o n s an d dr a w i n g s ar e in t e n d e d to co v e r a fu l l y fu n c t i o n i n g in s t a l l a t i o n . Om i s s i o n of ex p r e s s e d re f e r e n c e to an it e m of la b o r or ma t e r i a l th a t is in ac c o r d a n c e wi t h pr e s e n t pr a c t i c e of th e tr a d e wi l l no t re l i e v e re s p o n s i b i l i t y fo r pr o v i d i n g su c h it e m s . 1. 4 C o m p l y wi t h th e la t e s t co d e s an d re g u l a t i o n s , re g a r d l e s s of wh a t ma y be sh o w n on th e de s i g n dr a w i n g s . Re q u e s t wr i t t e n cl a r i f i c a t i o n wh e r e co n f l i c t s or er r o r s ex i s t . 1. 5 R e q u e s t wr i t t e n ap p r o v a l fo r al l ch a n g e or d e r s pr i o r to pr o c e e d i n g wi t h ad d i t i o n a l wo r k . 1. 6 No t i f y th e Ar c h i t e c t wh e n si t e co n d i t i o n s wi l l ad v e r s e l y af f e c t th e co m p l e t i o n of wo r k . Co m m e n c e m e n t of wo r k is de e m e d as ac c e p t a n c e of al l ex i s t i n g co n d i t i o n s . 1. 7 P r o v i d e “n e w ” ma t e r i a l , wh i c h ha s be e n ma n u f a c t u r e d in th e pa s t tw o (2 ) ye a r s an d ne v e r us e d . 1. 8 A l l ma t e r i a l s sh a l l be li s t e d an d la b e l e d by a re c o g n i z e d te s t i n g ag e n c y ac c e p t a b l e to th e Au t h o r i t y Ha v i n g Ju r i s d i c t i o n , an d me e t UL , AN S I , an d NE M A st a n d a r d s . 1. 9 Al l it e m s of th e sa m e cl a s s or ca t e g o r y sh a l l be fr o m a si n g l e ma n u f a c t u r e r . 1. 1 0 B r a c e an d an c h o r al l eq u i p m e n t pe r st a t e an d lo c a l se i s m i c re q u i r e m e n t s . 1. 1 1 C o n t r a c t o r ‐Fu r n i s h e d , Co n t r a c t o r ‐In s t a l l e d (T y p i c a l ‐ Ve r i f y w/ Co n t r a c t ) : a) S w i t c h b o a r d , sw i t c h g e a r , pa n e l b o a r d s , dr y ty p e tr a n s f o r m e r s . b) Di e s e l em e r g e n c y ge n s e t . c) A u t o m a t i c tr a n s f e r sw i t c h . d) G e n e r a t o r co n n e c t i o n ca b i n e t (i f re q u i r e d ) . e) L i g h t i n g pa c k a g e , in c l u d i n g di g i t a l co n t r o l s , (i f de s i g n e d ) . f) Po w e r sy s t e m st u d y (i f re q u i r e d by co n t r a c t ) g) S e c o n d a r y se r v i c e co n d u i t s an d ca b l e s . h) C o m p l e t e po w e r sy s t e m , in c l u d i n g ra c e w a y s , co n d u c t o r s , ca b l e s , wi r i n g , wi r e w a y s , et c . i) Al l wi r i n g de v i c e s , di s c o n n e c t s , mo t o r st a r t e r s . j) T e s t i n g of al l el e c t r i c a l sy s t e m s . k) S y s t e m co m m i s s i o n i n g . 1. 1 2 E x c l u s i o n s : a) Lo w ‐vo l t a g e co n t r o l s , ex c e p t as no t e d ab o v e . b) H a n d l i n g of an y ha z a r d o u s wa s t e ma t e r i a l s al r e a d y in ex i s t e n c e on th e si t e . c) P r i m a r y co n d u i t s , ca b l e s , va u l t s , pr i m a r y tr a n s f o r m e r pa d s , a n d in t e r i o r ho u s e k e e p i n g pa d s (u n l e s s in c l u d e d by co n t r a c t ) PA R T 2 ‐ CO O R D I N A T I O N 2. 1 Re f e r to dr a w i n g s an d sh o p dr a w i n g s of ot h e r tr a d e s fo r de t a i l s wh i c h re l a t e to in s t a l l a t i o n . 2. 2 U s e pr o p e r ju d g m e n t to ma k e th e be s t po s s i b l e us e of th e av a i l a b l e sp a c e , al l o w i n g ma x i m u m he a d r o o m an d ma i n t a i n i n g al l co d e re q u i r e d cl e a r a n c e s . 2. 3 Wh e r e re w o r k is re q u i r e d du e to la c k of co o r d i n a t i o n wi t h ot h e r tr a d e s , no ex t r a co s t to th e Ow n e r sh a l l be al l o w e d . PA R T 3 ‐ EX E C U T I O N 3. 1 U s e on l y co m p e t e n t , sk i l l e d pe r s o n n e l . Pe r f o r m wo r k us i n g th e cu r r e n t be s t pr a c t i c e s fo r th e tr a d e . 3. 2 A l l sy s t e m te s t i n g is to be do n e by ei t h e r an in d e p e n d e n t ag e n c y or by qu a l i f i e d in d i v i d u a l s . 3. 3 R e c o r d al l te s t i n g an d su b m i t to th e En g i n e e r fo r re v i e w , fo r ea c h an d ev e r y se c t i o n li s t e d he r e a f t e r , as ap p l i c a b l e . 3. 4 S u b m i t sh o p dr a w i n g s to th e Ar c h i t e c t / Ow n e r fo r re v i e w , fo r al l ma j o r eq u i p m e n t , in c l u d i n g bu t no t li m i t e d to : a) L i g h t fi x t u r e s , po l e s , po l e ba s e s . b) S w i t c h b o a r d s , pa n e l b o a r d s , dr y ty p e tr a n s f o r m e r s . c) S w i t c h e s , en c l o s e d ci r c u i t br e a k e r s . d) Tr a n s f e r sw i t c h , di e s e l em e r g e n c y ge n s e t . 3. 5 Sh o p dr a w i n g s sh a l l in c l u d e : Ti t l e , Pr o j e c t Na m e , Da t e of Su b m i t t a l , Na m e s of Al l Pa r t i e s In v o l v e d , an d St a t u s of Su b m i t t a l . Al l o w fo r te n (1 0 ) bu s i n e s s da y s of re v i e w ti m e , lo n g e r fo r su b s t i t u t i o n s , an d or d e r no ma t e r i a l un t i l su b m i t t a l s ar e re t u r n e d as “A p p r o v e d ” or “A p p r o v e d as No t e d ” . Th i s sh a l l no t be co n s i d e r e d a gu a r a n t e e d re v i e w ti m e , an d th e de s i g n te a m sh a l l be he l d ha r m l e s s fo r an y re a s o n a b l e de l a y in re v i e w ti m e . 3. 6 S u b m i t t a l re v i e w is in t e n d e d to ch e c k ca p a c i t i e s , ra t i n g s , an d fe a t u r e s . Wh e r e su b m i t t a l s ar e in co n f l i c t wi t h th e Co n t r a c t Do c u m e n t s , th e Co n t r a c t sh a l l pr e v a i l un l e s s mo d i f i e d in wr i t i n g . Co n t r a c t o r is no t re l i e v e d of re s p o n s i b i l i t y to me e t al l co d e s , re g u l a t i o n s , an d th e Co n t r a c t Do c u m e n t s . 3. 7 I f au t h o r i z a t i o n fr o m th e Ar c h i t e c t fo r de v i a t i o n s fr o m th e Co n t r a c t Do c u m e n t s is no t re q u e s t e d in wr i t i n g , th e de s i g n te a m sh a l l be he l d ha r m l e s s fo r an y ad v e r s e co n s e q u e n c e s du e to th e in a b i l i t y of th e de s i g n te a m to pr o p e r l y pl a n an d al l o w fo r sa i d de v i a t i o n s . 3. 8 P r o v i d e an ac c u r a t e se t of Re c o r d Dr a w i n g s to th e Ar c h i t e c t at pr o j e c t co m p l e t i o n . In c l u d e th r e e (3 ) co p i e s of th e op e r a t i n g an d ma i n t e n a n c e ma n u a l , wh i c h sh a l l in c l u d e su b m i t t a l s , cu t s , fa c t o r y in s t a l l a t i o n an d ma i n t e n a n c e ma n u a l s , an d in s t r u c t i o n s fo r th e ca r e an d op e r a t i o n of al l eq u i p m e n t . 3. 9 Cl e a n an d re ‐to r q u e al l co n n e c t i o n s in ex i s t i n g sw i t c h b o a r d s an d sw i t c h g e a r , wh e r e ap p l i c a b l e . 3. 1 0 C o m m i s s i o n al l sy s t e m s , an d in s t r u c t th e Ow n e r or hi s de s i g n a t e d re p r e s e n t a t i v e on al l st e p s ne c e s s a r y fo r th e op e r a t i o n an d ma i n t e n a n c e of al l eq u i p m e n t an d sy s t e m s . Th e Ow n e r sh a l l si g n ac c e p t a n c e of tr a i n i n g re c e i v e d , wi t h o u t wh i c h it sh a l l be co n s i d e r e d as ne v e r ha v i n g be e n pe r f o r m e d . 26 05 19 – LO W ‐VO L T A G E PO W E R CO N D U C T O R S & CA B L E S PA R T 1 ‐ GE N E R A L 1. 1 Pr o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 Co p p e r co n d u c t o r s – dr y lo c a t i o n s : Ty p e TH H N / T H W N ‐2, st r a n d e d , 60 0 V , UL 83 . 2. 2 C o p p e r co n d u c t o r s – we t lo c a t i o n s , fr e e z e r s : Ty p e XH H W ‐2, st r a n d e d , 60 0 V , UL 44 . 2. 3 Al u m i n u m co n d u c t o r s – al l lo c a t i o n s : Ty p e TH H N / T H W N ‐2 or XH H W ‐2, st r a n d e d , 60 0 V , UL 83 an d / o r 44 . 2. 4 M C Ca b l e – dr y lo c a t i o n s : Al u m i n u m ja c k e t , co p p e r co n d u c t o r s , ty p e TH H N / T H W N ‐2, in s u l a t e d gr o u n d , st r a n d e d or so l i d , 60 0 V , UL 15 6 9 & 83 . 2. 5 MC Ca b l e – we t lo c a t i o n s , fr e e z e r s : PV C co a t e d al u m i n u m ja c k e t , co p p e r co n d u c t o r s , ty p e TH H N / T H W N ‐2, in s u l a t e d gr o u n d , st r a n d e d or so l i d , 60 0 V , UL 15 6 9 & 83 . 2. 6 C o n n e c t o r s & sp l i c e s : PV C ja c k e t e d se t sc r e w co n n e c t o r s , or tw o ho l e co m p r e s s i o n lu g s . PA R T 3 ‐ EX E C U T I O N 3. 1 Fe e d e r s : Co p p e r fo r #1 AW G an d sm a l l e r , al u m i n u m fo r #1 / 0 AW G an d la r g e r . 3. 2 B r a n c h ci r c u i t s : Co p p e r on l y , st r a n d e d or so l i d . 3. 3 P L F A ci r c u i t s : Co p p e r on l y , st r a n d e d or so l i d . 3. 4 Wi r i n g me t h o d s : a) S e r v i c e en t r a n c e or un d e r g r o u n d fe e d e r s : Ty p e TH H W or XH H W , si n g l e co n d u c t o r s in ra c e w a y . b) E x p o s e d or co n c e a l e d fe e d e r s : Ty p e TH H N / T H W N ‐2 or XH H W ‐2, si n g l e co n d u c t o r s in ra c e w a y , or ty p e MC ca b l e . c) E x p o s e d br a n c h ci r c u i t s , be l o w ba r jo i s t s : Ty p e TH H N / T H W N ‐2, si n g l e co n d u c t o r s in ra c e w a y , or ty p e MC ca b l e . d) E x p o s e d br a n c h ci r c u i t s , ab o v e ba r jo i s t s : Ty p e TH H N / T H W N ‐2, si n g l e co n d u c t o r s in ra c e w a y , or ty p e MC Ca b l e . e) C o n c e a l e d br a n c h ci r c u i t s , ab o v e ba r jo i s t s : Ty p e TH H N / T H W N ‐2, si n g l e co n d u c t o r s in ra c e w a y , or ty p e MC Ca b l e . f) C o r d dr o p s : Ty p e SO , ha r d se r v i c e co r d , wi t h wi r e ‐me s h st r a i n re l i e f s . 3. 5 Co n c e a l ca b l e s as mu c h as po s s i b l e . 3. 6 R o u t e al l ca b l e s an d ra c e w a y s pa r a l l e l an d pe r p e n d i c u l a r to bu i l d i n g st r u c t u r e . 3. 7 U s e ap p r o v e d pu l l i n g me a n s an d lu b r i c a n t , so as no t to da m a g e ca b l e s . 3. 8 Su p p o r t al l ca b l e s an d ra c e w a y s pe r Se c t i o n 26 0 5 2 9 . 3. 9 To r q u e al l co n n e c t i o n s pe r ma n u f a c t u r e r s ’ va l u e s , ap p l y a vi s u a l ma r k to ea c h to r q u e d co n n e c t i o n , re c o r d to r q u e d va l u e s , an d su b m i t wi t h te s t i n g re p o r t s to en g i n e e r . 3. 1 0 Us e ox i d e in h i b i t i n g co m p o u n d fo r al l al u m i n u m te r m i n a t i o n s . 3. 1 1 I d e n t i f y al l ca b l e s pe r Se c t i o n 26 0 5 5 3 . 3. 1 2 I n s t a l l al l sl e e v e s an d se a l s pe r Se c t i o n 26 0 5 4 4 . 3. 1 3 I n s t a l l fi r e s t o p p i n g pe r Di v i s i o n 07 re q u i r e m e n t s . 3. 1 4 Te s t i n g re q u i r e m e n t s fo r al l co n d u c t o r s on ci r c u i t s ra t e d mo r e th a n 12 5 A, to be te s t e d pr i o r to en e r g i z i n g an y ci r c u i t s : a) V i s u a l in s p e c t i o n of ex p o s e d co n d u c t o r s fo r da m a g e an d co m p l i a n c e wi t h si n g l e ‐li n e di a g r a m . b) Ve r i f y th a t al l co n n e c t i o n s ar e to r q u e d . c) I n s p e c t co m p r e s s i o n co n n e c t o r s fo r co r r e c t in d e n t i o n s d) I n s p e c t fo r co r r e c t id e n t i f i c a t i o n e) P e r f o r m in s u l a t i o n ‐re s i s t a n c e te s t i n g at 1, 0 0 0 V DC fo r 60 0 V ca b l e s , fo r on e mi n u t e du r a t i o n . f) P e r f o r m co n t i n u i t y te s t i n g on al l ca b l e s fo r sh o r t an d gr o u n d fa u l t s . If ca b l e s fa i l an y of th e ab o v e te s t s , th e y sh a l l be re p l a c e d . 26 05 26 – GR O U N D I N G & BO N D I N G PA R T 1 ‐ GE N E R A L 1. 1 Pr o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 Co p p e r co n d u c t o r s on l y : Ba r e , AS T M B 3 an d / o r 8 2. 2 Gr o u n d i n g bu s : 4” x . 2 5 ” an n e a l e d co p p e r , le n g t h as re q u i r e d , wi t h 9/ 3 2 ” ho l e s sp a c e d 1 ‐1/ 8 ” ap a r t . 2. 3 S t a n d ‐of f in s u l a t o r s : Le x a n or PV C , 60 0 V , UL 89 1 . 2. 4 Gr o u n d i n g bu s co n n e c t o r s : Co m p r e s s i o n ty p e , co p p e r , tw o ho l e lu g s . 2. 5 W e l d e d co n n e c t o r s : Ex o t h e r m i c ‐we l d i n g ki t s , as re c o m m e n d e d by ma n u f a c t u r e r fo r ap p l i c a t i o n . 2. 6 G r o u n d ro d : Co p p e r ‐cl a d st e e l , 10 ’ x . 7 5 ” . PA R T 3 ‐ EX E C U T I O N 3. 1 U n d e r g r o u n d co n d u c t o r s : Ba r e co p p e r , bu r i e d at le a s t 24 ” be l o w gr a d e . 3. 2 Gr o u n d i n g bu s : in s t a l l on 2” sp a c e r s , 6” ab o v e fi n i s h fl o o r , lo c a t e d as in d i c a t e d . 3. 3 C o n d u c t o r te r m i n a t i o n s : a) P i p e , eq u i p m e n t gr o u n d i n g : Bo l t e d co n n e c t o r s . b) Un d e r g r o u n d co n n e c t i o n s : We l d e d co n n e c t o r s . c) C o n n e c t i o n s to st r u c t u r a l st e e l : We l d e d co n n e c t o r s . 3. 4 I n s t a l l in s u l a t e d eq u i p m e n t gr o u n d i n g co n d u c t o r wi t h al l ci r c u i t s . 3. 5 B o n d al l pi p i n g wh i c h ha s he a t tr a c e ap p l i e d to it . 3. 6 In s t a l l gr o u n d i n g co n d u c t o r s in th e sh o r t e s t an d st r a i g h t e s t pa t h po s s i b l e . 3. 7 D r i v e to p s of gr o u n d ro d s 2” be l o w fi n i s h gr a d e . In s t a l l a mi n i m u m of th r e e (2 ) ro d s , 6’ ap a r t . 3. 8 I n s t a l l co n c r e t e ‐en c a s e d el e c t r o d e pe r NE C re q u i r e m e n t s . 3. 9 Pr i o r to en e r g i z i n g th e sy s t e m , vi s u a l l y in s p e c t al l gr o u n d i n g el e c t r o d e s fo r da m a g e an d pr o p e r in s t a l l a t i o n . Pe r f o r m a gr o u n d re s i s t a n c e te s t , an d su b m i t to en g i n e e r fo r re v i e w . El e c t r o d e s wi t h mo r e th a n 25 oh m s re s i s t a n c e wi l l be co n s i d e r e d de f e c t i v e . 26 05 29 – HA N G E R S & SU P P O R T S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . 1. 2 S e i s m i c pe r f o r m a n c e ha n g e r su b m i t t a l s sh a l l be se a l e d by a qu a l i f i e d pr o f e s s i o n a l en g i n e e r . PA R T 2 ‐ PR O D U C T S 2. 1 A n y ap p r o p r i a t e pr o d u c t , ac c o r d i n g to th e pr e s e n t pr a c t i c e of th e tr a d e , wh i c h is ra t e d fo r th e in t e n d e d ap p l i c a t i o n , ma y be us e d . PA R T 3 ‐ EX E C U T I O N 3. 1 Co m p l y wi t h Se c t i o n 26 0 5 3 3 . 3. 2 M a x i m u m su p p o r t di s t a n c e s ar e pe r NE C . 3. 3 W h e r e tr a p e z e ‐ty p e su p p o r t s ar e ut i l i z e d , al l o w 25 % ex t r a ca p a c i t y fo r fu t u r e ra c e w a y s . 3. 4 Mo u n t i n g an d an c h o r a g e fa s t e n e r s , mo d i f y to co m p l y wi t h se i s m i c re q u i r e m e n t s as ne e d e d : a) T o wo o d : La g sc r e w s , th r o u g h bo l t s . b) T o co n c r e t e : Ex p a n s i o n an c h o r s , ga s ‐ac t u a t e d dr i v e n th r e a d e d st u d s . c) To ma s o n r y : Ex p a n s i o n an c h o r s . d) T o st e e l : Be a m cl a m p s , sp r i n g te n s i o n cl a m p s . e) T o li g h t st e e l : Sh e e t me t a l sc r e w s . f) T o ho l l o w / n o n ‐st r u c t u r a l wa l l s : Mo u n t eq u i p m e n t to sl o t t e d ‐ch a n n e l ra c k s , se c u r e l y fa s t e n e d to su b s t r a t e . g) T o in s u l a t e d me t a l pa n e l wa l l s : Fa b ‐lo c k fa s t e n e r s . 26 05 33 – RA C E W A Y S & BO X E S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 A l l ra c e w a y s ar e to be UL li s t e d . 2. 2 U s e st e e l se t s c r e w or co m p r e s s i o n fi t t i n g s , li s t e d fo r th e ty p e of co n d u i t , lo c a t i o n , an d us e . 2. 3 E x p a n s i o n fi t t i n g s to ma t c h co n d u i t ty p e , UL 65 1 . 2. 4 M e t a l wi r e w a y s : St a n d a r d en a m e l fi n i s h , UL 87 0 . 2. 5 S h e e t me t a l ou t l e t bo x e s : UL 51 4 A , ga n g a b l e bo x e s ar e al l o w e d . 2. 6 Ca s t ‐me t a l bo x e s : NE M A FB 1, al u m i n u m , ty p e FS or FD , ga s k e t e d co v e r . 2. 7 N o n m e t a l l i c fl o o r bo x e s : No n a d j u s t a b l e , ro u n d . 2. 8 S m a l l sh e e t me t a l pu l l an d ju n c t i o n bo x e s : NE M A OS 1. 2. 9 H a n d h o l e s fo r ex t e r i o r un d e r g r o u n d wi r i n g : a) Po l y m e r ‐co n c r e t e co n s t r u c t i o n , wi t h st e e l or fi b e r g l a s s re i n f o r c i n g . b) D e s i g n e d fo r fl u s h bu r i a l wi t h cl o s e d bo t t o m . c) W e a t h e r p r o o f co v e r wi t h ta m p e r ‐re s i s t a n t lo c k i n g de v i c e , ra t e d fo r th e ex p e c t e d lo a d at th e lo c a t i o n in s t a l l e d . d) No n s k i d co v e r wi t h mo l d e d le t t e r i n g in d i c a t i n g sy s t e m wi t h i n . PA R T 3 ‐ EX E C U T I O N 3. 1 Ou t d o o r s ra c e w a y ap p l i c a t i o n : a) E x p o s e d co n d u i t : GR C , IM C , EP C ‐80 PV C . b) U n d e r g r o u n d co n d u i t : EP C ‐40 PV C . c) C o n n e c t i o n s to eq u i p m e n t : LF M C . d) Ab o v e g r o u n d bo x e s , en c l o s u r e s : NE M A Ty p e 3R . 3. 2 I n d o o r s ra c e w a y ap p l i c a t i o n : a) E x p o s e d co n d u i t – se v e r e ph y s i c a l da m a g e ha z a r d : GR C , IM C in s t a l l e d up to 15 ’ ab o v e fi n i s h fl o o r he i g h t . b) Ex p o s e d co n d u i t – no ph y s i c a l da m a g e ha z a r d : EM T , GR C , IM C . c) C o n c e a l e d co n d u i t : EM T , GR C , IM C . d) C o n n e c t i o n s to eq u i p m e n t : LF M C . e) D a m p or we t lo c a t i o n s : GR C , IM C . f) Bo x e s an d en c l o s u r e s – dr y lo c a t i o n s : NE M A Ty p e 1. g) B o x e s an d en c l o s u r e s – we t lo c a t i o n s : NE M A Ty p e 4 3. 3 M i n i m u m ra c e w a y si z e : .7 5 ” tr a d e si z e . .5 " (1 / 2 " ) sh a l l be pe r m i t t e d fo r co n t r o l an d fi r e al a r m ap p l i c a t i o n s . 3. 4 Ra c e w a y fi t t i n g s : a) G R C , IM C : th r e a d e d ri g i d st e e l or th r e a d l e s s co m p r e s s i o n fi t t i n g s . b) E M T – dr y lo c a t i o n s : st e e l or di e c a s t se t s c r e w fi t t i n g s . c) E M T – we t lo c a t i o n s : st e e l or di e c a s t co m p r e s s i o n fi t t i n g s . d) Fl e x i b l e co n d u i t : li s t e d fi t t i n g s on l y . 3. 5 M a i n t a i n 6” cl e a r a n c e fr o m st e a m , wa t e r , or re f r i g e r a t i o n pi p i n g . 3. 6 I n s t a l l ha n g e r s pe r Se c t i o n 26 0 5 2 9 . 3. 7 I n s t a l l no mo r e th a n 36 0 ° of be n d s be t w e e n ra c e w a y te r m i n a t i o n s . 3. 8 Us e EM T fo r st u b ‐up s ab o v e ce i l i n g s , wi t h bu s h i n g s wh e r e no t te r m i n a t e d in bo x e s . 3. 9 I n s t a l l in s u l a t e d th r o a t bo n d i n g bu s h i n g s on al l me t a l l i c se r v i c e en t r a n c e co n d u i t s . 3. 1 0 In s t a l l bu s h i n g s on al l th r e a d e d co n d u i t te r m i n a t i o n s . 3. 1 1 I n s t a l l pu l l st r i n g s in al l em p t y ra c e w a y s . Ca p an d se a l em p t y un d e r g r o u n d ra c e w a y s fo r fu t u r e us e . 3. 1 2 S e a l al l ra c e w a y s th a t tr a n s i t i o n be t w e e n di f f e r e n t cl i m a t e s , i. e . fr o m fr e e z e r to do c k , or fr o m in t e r i o r to ex t e r i o r , to pr e v e n t ai r an d mo i s t u r e mo v e m e n t . 3. 1 3 I n s t a l l ex p a n s i o n jo i n t fi t t i n g s fo r co n d u i t s th a t cr o s s bu i l d i n g st r u c t u r e ex p a n s i o n jo i n t s . 3. 1 4 U s e a ma x i m u m of 6’ fo r fl e x i b l e co n d u i t co n n e c t i o n s . 3. 1 5 Pr o v i d e a mi n i m u m of 24 ” ho r i z o n t a l se p a r a t i o n fo r bo x e s lo c a t e d on op p o s i t e si d e s of wa l l s . 3. 1 6 B o x e s sh a l l no t sp a n mu l t i p l e bu i l d i n g fi n i s h e s . 3. 1 7 F a s t e n al l bo x e s to or su p p o r t fr o m bu i l d i n g st r u c t u r e . 3. 1 8 Un d e r g r o u n d co n d u i t in s t a l l a t i o n : a) I n s t a l l GR C el b o w s fo r st u b ‐up s at po l e s an d eq u i p m e n t , an d en t r a n c e s th r o u g h bu i l d i n g sl a b . Co n t i n u e wi t h GR C or IM C up th r o u g h sl a b s . In s t a l l bo n d i n g bu s h i n g s at al l te r m i n a t i o n s . b) Ba c k f i l l an d co m p a c t ev e r y 12 ” , on c e co n d u i t is in s t a l l e d . c) P r o v i d e wa r n i n g ta p e pe r Se c t i o n 26 0 5 5 3 . d) M a r k en d s of em p t y ra c e w a y s wi t h ve r t i c a l wo o d e n pl a n k , mi n i m u m of 36 ” ab o v e fi n i s h gr a d e . 3. 1 9 In s t a l l un d e r g r o u n d ha n d h o l e s le v e l an d pl u m b , su p p o r t e d on a be d of cr u s h e d st o n e or gr a v e l . In pa v e d ar e a s , co v e r sh a l l be fl u s h wi t h fi n i s h gr a d e . 26 05 44 – SL E E V E S & SL E E V E SE A L S FO R RA C E W A Y S & CA B L I N G PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 M o d u l a r se a l i n g de v i c e : EP D M ru b b e r in t e r l o c k i n g li n k s , st a i n l e s s st e e l pr e s s u r e pl a t e s an d bo l t s . 2. 2 G r o u t : No n s h r i n k , AS T M C 11 0 7 / C 11 0 7 M , 50 0 0 ps i 28 da y co m p r e s s i v e st r e n g t h , pr e m i x e d . 2. 3 S i l i c o n e fo a m : Ex p a n d a b l e , fl e x i b l e , no n s h r i n k i n g in s u l a t i n g fo a m . 2. 4 Si l i c o n e se a l a n t s : Si l i c o n e ‐ba s e d , ne u t r a l ‐cu r i n g el a s t o m e r i c se a l a n t . PA R T 3 ‐ EX E C U T I O N 3. 1 In s t a l l fi r e s t o p p i n g pe r Di v i s i o n 07 if re q u i r e d by co n t r a c t . 3. 2 S l e e v e s an d se a l s ap p l i c a t i o n : a) I n t e r i o r co n c r e t e wa l l s : Gr o u t . b) I n t e r i o r in s u l a t e d me t a l pa n e l wa l l s : Si l i c o n e fo a m / s e a l a n t s . c) Ro o f pe n e t r a t i o n s : fl e x i b l e bo o t ‐ty p e fl a s h i n g . d) E x t e r i o r wa l l – ab o v e gr a d e : Si l i c o n e fo a m / s e a l a n t s . e) E x t e r i o r wa l l – be l o w gr a d e : Mo d u l a r se a l i n g de v i c e . 26 05 53 – ID E N T I F I C A T I O N FO R SY S T E M S PA R T 1 ‐ GE N E R A L 1. 1 Pr o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 Co n d u c t o r s sh a l l ha v e fa c t o r y ap p l i e d co l o r ‐co d i n g , or fi e l d ap p l i e d fo r si z e s la r g e r th a n #8 AW G , pe r th e dr a w i n g re q u i r e m e n t s . 2. 2 M u l t i p l e po w e r so u r c e wa r n i n g si g n : "D A N G E R ‐ EL E C T R I C A L SH O C K HA Z A R D ‐ EQ U I P M E N T HA S MU L T I P L E PO W E R SO U R C E S . " 2. 3 Wo r k s p a c e cl e a r a n c e wa r n i n g si g n : "W A R N I N G ‐ OS H A RE G U L A T I O N ‐ AR E A IN FR O N T OF EL E C T R I C A L EQ U I P M E N T MU S T BE KE P T CL E A R FO R 36 IN C H E S . ” 2. 4 S e l f ‐ad h e s i v e la b e l s : Th e r m a l pr i n t e d , 3 ‐mi l s th i c k , we a t h e r an d UV re s i s t a n t . a) 1 . 5 ” x 6 ” fo r ra c e w a y s an d co n d u c t o r s . b) 3. 5 ” x 5 ” fo r eq u i p m e n t . 2. 5 M a r k e r ta p e s : Se l f ‐ad h e s i v e , wr a p a r o u n d ty p e , wi t h th e r m a l pr i n t e d ci r c u i t id e n t i f i c a t i o n . 2. 6 V i n y l ta p e s : Se l f ‐ad h e s i v e , wa t e r p r o o f , co l o r e d , he a v y du t y , no t le s s th a n 3 ‐ mi l s th i c k by 1” ‐2” wi d e . 2. 7 U n d e r g r o u n d wa r n i n g ta p e : Re i n f o r c e d , de t e c t a b l e la m i n a t e , wi t h al u m i n u m ‐ fo i l co r e , 3” wi d e by no t le s s th a n 8 ‐mi l s th i c k , wi t h pe r m a n e n t in s c r i p t i o n of se r v i c e bu r i e d be l o w . 2. 8 Pl a s t i c la m i n a t e si g n s : .0 6 2 5 ” th i c k mi n i m u m , se l f ‐ad h e s i v e , en g r a v e d le g e n d pe r be l o w : a) L a b e l i n g si g n s : Bl a c k le t t e r i n g on wh i t e fa c e . b) Wa r n i n g si g n s : Bl a c k le t t e r i n g on ye l l o w fa c e . c) D a n g e r si g n s : Wh i t e le t t e r i n g on re d fa c e . PA R T 3 ‐ EX E C U T I O N 3. 1 A p p l y la b e l i n g af t e r al l su r f a c e s ar e fi n i s h e d . 3. 2 I n s t a l l si g n s fo r id e n t i f i c a t i o n an d op e r a t i o n of sy s t e m s . 3. 3 I n s t a l l em e r g e n c y po w e r tr a n s f e r op e r a t i n g in s t r u c t i o n si g n s wi t h .3 7 5 ” ta l l le t t e r i n g at as s o c i a t e d eq u i p m e n t . 3. 4 L a b e l al l ju n c t i o n an d pu l l bo x co v e r s wi t h sy s t e m an d ci r c u i t s co n t a i n e d wi t h i n , by wr i t i n g or pe r m a n e n t la b e l s . 3. 5 A t t a c h ma r k e r ta p e or wr i t e ‐on ta g s to al l br a n c h ci r c u i t co n d u c t o r s fo r id e n t i f i c a t i o n . 3. 6 A p p l y ar c ‐fl a s h wa r n i n g la b e l s to al l eq u i p m e n t in c l u d e d in po w e r st u d y . 3. 7 A p p l y pl a s t i c la m i n a t e si g n s to al l el e c t r i c a l di s t r i b u t i o n eq u i p m e n t ab o v e th e br a n c h ci r c u i t le v e l . 26 05 70 – PO W E R SY S T E M S ST U D Y PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s of al l re p o r t s in th i s se c t i o n if re q u i r e d by co n t r a c t an d to co m p l y wi t h NE C re q u i r e m e n t s if ap p l i c a b l e . PA R T 2 ‐ PR O D U C T S 2. 1 U t i l i z e a na t i o n a l l y re c o g n i z e d co m p u t e r an a l y s i s pr o g r a m , co m p l y i n g wi t h IE E E st a n d a r d s . 2. 2 Po w e r sy s t e m s st u d y sh a l l in c l u d e , at a mi n i m u m : a) E x e c u t i v e su m m a r y . b) S t u d y de s c r i p t i o n , pu r p o s e , ba s i s , an d sc o p e . c) S i n g l e ‐li n e di a g r a m , sh o w i n g al l re l e v a n t da t a . d) Co m m e n t s an d re c o m m e n d a t i o n s . e) S t u d y in p u t da t a . f) T a b u l a t i o n of pr o t e c t i v e de v i c e ev a l u a t i o n , no t i n g an y in a d e q u a c i e s . g) S h o r t ‐ci r c u i t st u d y ou t p u t , sh o w i n g av a i l a b l e fa u l t cu r r e n t an d in t e r r u p t i n g du t i e s fo r al l eq u i p m e n t . h) T a b u l a t i o n of pr o t e c t i v e de v i c e se t t i n g s , to be fi e l d ap p l i e d . i) T i m e ‐cu r r e n t co o r d i n a t i o n cu r v e s , fo r al l eq u i p m e n t an d ea c h se t of op e r a t i n g co n d i t i o n s . j) Ta b u l a t i o n of ar c ‐fl a s h st u d y ou t p u t , in c l u d i n g in c i d e n t en e r g y an d fl a s h pr o t e c t i o n bo u n d a r i e s . 2. 3 A r c fl a s h la b e l s : Ma c h i n e pr i n t e d , co m p l y i n g wi t h Se c t i o n 26 0 5 5 3 , wi t h an or a n g e he a d e r an d th e wo r d i n g “W A R N I N G – AR C ‐FL A S H HA Z A R D ” , an d al l id e n t i f y i n g an d ca l c u l a t e d in f o r m a t i o n . PA R T 3 ‐ EX E C U T I O N 3. 1 Co m p l y wi t h NF P A 70 E an d IE E E st a n d a r d s . 3. 2 I n c l u d e al l lo w ‐vo l t a g e eq u i p m e n t , ex c e p t fo r eq u i p m e n t ra t e d 24 0 V or le s s wh e n su p p l i e d by a si n g l e tr a n s f o r m e r ra t e d le s s th a n 12 5 kV A . 3. 3 C a l c u l a t e sh o r t ‐ci r c u i t cu r r e n t s as a th r e e ‐ph a s e bo l t e d fa u l t at al l lo c a t i o n s in c l u d e d . 3. 4 I n c l u d e al l mo t o r co n t r i b u t i o n s , an d co n s i d e r al l op e r a t i n g sc e n a r i o s . 3. 5 E v a l u a t e al l pr o t e c t i v e de v i c e an d eq u i p m e n t in t e r r u p t i n g ra t i n g s fo r ad e q u a c y . 3. 6 Ca p ma x i m u m fa u l t cl e a r i n g ti m e at tw o se c o n d s pe r IE E E . 3. 7 A p p l y ar c ‐fl a s h la b e l s to th e fo l l o w i n g eq u i p m e n t : a) M o t o r ‐co n t r o l ce n t e r s . b) S w i t c h b o a r d s . c) Sw i t c h g e a r . d) P a n e l b o a r d s . e) D i s c o n n e c t s . f) C o n t r o l pa n e l s . 26 09 13 – MO N I T O R I N G & CO N T R O L PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n . PA R T 2 ‐ PR O D U C T S 2. 1 P o w e r me t e r s : mo d u l a r , pe r m a n e n t l y in s t a l l e d , so l i d ‐st a t e di g i t a l in s t r u m e n t ca p a b l e of me a s u r i n g vo l t a g e , cu r r e n t , po w e r , an d ha r m o n i c di s t o r t i o n le v e l s . Da t a st o r a g e fo r ma x an d mi n va l u e s , de m a n d va l u e s , ev e n t s , an d al a r m s . Lo c a l gr a p h i c a l us e r in t e r f a c e wi t h pr o g r a m m a b l e fu n c t i o n s an d se c u r i t y lo c k . PA R T 3 ‐ EX E C U T I O N 3. 1 In s t a l l on e (1 ) po w e r me t e r fo r ea c h ma i n se r v i c e di s c o n n e c t i n g me a n s if re q u i r e d by th e Co n t r a c t or RF P . 26 09 23 – LI G H T I N G CO N T R O L DE V I C E S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . 1. 2 Re f e r to 26 2 7 2 6 fo r re l a t e d de v i c e s . PA R T 2 ‐ PR O D U C T S 2. 1 El e c t r o n i c ti m e sw i t c h e s : Pr o g r a m m a b l e we e k l y sc h e d u l e , as t r o n o m i c ti m e , ba t t e r y ba c k u p . 2. 2 I n d o o r oc c u p a n c y or va c a n c y se n s o r s : Du a l te c h n o l o g y . PA R T 3 ‐ EX E C U T I O N 3. 1 C o o r d i n a t e se n s o r lo c a t i o n s wi t h al l ot h e r ce i l i n g sy s t e m s . In s t a l l se n s o r s aw a y fr o m ex t e r n a l so u r c e s an d ou t of an y HV A C ai r st r e a m . 3. 2 Ai m se n s o r s to ac h i e v e 90 pe r c e n t co v e r a g e . 3. 3 T r a i n ow n e r in th e op e r a t i o n of al l de v i c e s . 26 22 13 – LOW ‐VOLTAGE DISTRIBUTION TRANSFORMERS PART 1 ‐ GENERAL 1.1 Provide submittals for all items in this section.PART 2 ‐ PRODUCTS 2.1 Dry type distribution transformers: Comply and mark as DOE 2016 compliant, seismic rated when required, steel core, aluminum windings, bolted terminal connections, ventilated enclosure, NEMA 250 Type 2, standard gray enamel finish, four adjustable taps, 115° C rise, ground bar kit installed within.PART 3 ‐ EXECUTION 3.1 Install plumb and level on concrete base or manufactured wall brackets, using vibration isolation pads.3.2 Terminate conductors using compression terminal lugs.3.3 Torque all bolted connections per manufacturers’ values, and per Section 260519.3.4 Testing prior to energizing circuits:a) Visually inspect for damage and proper anchorage.b)Verify all bolted connections have been torqued.c) Test for short and ground fault conditions.d) Verify output voltage after energizing.26 24 13 – SWITCHBOARDS PART 1 ‐ GENERAL 1.1 Provide submittals for all items in this section.1.2 Provide seismic certification when required.1.3 Do not deliver or install switchboards until spaces are enclosed and weathertight. PART 2 ‐ PRODUCTS 2.1 Front ‐connected, front ‐accessible: Fixed, individually mounted main devices, panel mounted branch devices, sections front and rear aligned, NEMA PB 2, NFPA 70, UL 891. Ratings as shown on single ‐line diagram. NEMA 250 Type 2, standard gray finish.2.2 Service entrance rated: One to six disconnecting means, neutral disconnecting link, main bonding jumper, and grounding electrode terminal.2.3 Metering, customer and utility: Dedicated, separate compartments. Shorting blocks for all current transformers.2.4 Busses and connections: High ‐strength, electrical ‐grade aluminum alloy, aluminum feeder circuit ‐breaker line connection. Mechanical connectors for feeder, branch circuit phase and ground conductors. Compression lug connectors for service entrance conductors. All main bussing is to be 100% rated, vertical section bussing shall not be tapered more than 50% or the sum of all breakers within that section.2.5 Future devices: Provide mounting brackets, supports, and appurtenances fully rated for all empty compartments.2.6 Surge protection devices: Integral disconnect switch, indicator lights, surge counter, UL 1449. Rated for 480Y/277 V, 100 kAIC.2.7 Disconnecting and overcurrent protective devices:a) Thermal ‐magnetic circuit breakers: Adjustable magnetic trip for frame sizes 250 A and larger.b)Electronic trip unit circuit breakers: Adjustable long ‐time, short ‐time, instantaneous, and ground fault trip levels.c) Ground ‐Fault Equipment Protection circuit breakers: Class B ground fault protection (30 ‐mA trip).d)MCCB features: Standard frame sizes, mechanical lugs, listed for application, integrally mounted ground fault protection, integral zone ‐selective interlocking, undervoltage trip where required.2.8 Metering per Section 260913.2.9 Kirk key interlocking of all Main ‐Tie ‐Main configurations.PART 3 ‐ EXECUTION 3.1 Receive, store, and protect switchboards according to accepted best practices.3.2 Examine for moisture damage prior to installation.3.3 Mount switchboards on a housekeeping pad furnished by the concrete contractor (see Section 26 05 00):a) Install conduits entering underneath the switchboard, entering under the vertical section where the conductors will terminate. Install with couplings flush with the concrete base. Extend 2” above concrete base after switchboard is anchored in place.b) For supported equipment, install epoxy ‐coated anchor bolts that extend through concrete base and anchor into structural concrete floor.c)Place and secure anchorage devices. Use setting drawings, templates, diagrams, instructions, and directions furnished with items to be embedded.d) Install anchor bolts to elevations required for proper attachment to switchboards.3.4 Remove all temporary lifting attachments and blocking after installation.3.5 Frame and mount basic printed operating instructions, including key interlocking sequences and emergency procedures. Mount in a frame of metal and acrylic plastic cover, on front of switchboard.3.6 All unused spaces shall have filler plates installed.C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com SPECIFICATIONS - PAGE 1 E002NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 26 24 13 – SW I T C H B O A R D S (C O N T I N U E D ) PA R T 3 ‐ EX E C U T I O N (C O N T I N U E D ) 3. 7 I d e n t i f y al l sw i t c h b o a r d s an d de v i c e s wi t h na m e p l a t e s co m p l y i n g wi t h Se c t i o n 26 0 5 5 3 . 3. 8 Ac c e p t a n c e te s t i n g pr i o r to en e r g i z i n g : a) T e s t in s u l a t i o n re s i s t a n c e fo r al l bu s s e s an d fe e d e r s . Di s c o n n e c t al l se n s i t i v e el e c t r o n i c s pr i o r to co m m e n c i n g te s t . b) T e s t co n t i n u i t y of al l ci r c u i t s . c) Te s t gr o u n d ‐fa u l t eq u i p m e n t pr o t e c t i o n pe r ma n u f a c t u r e r s ’ pr o c e d u r e s . d) T e s t zo n e ‐se l e c t i v e in t e r l o c k i n g pe r ma n u f a c t u r e r s ’ pr o c e d u r e s . e) Pe r f o r m vi s u a l , me c h a n i c a l , an d el e c t r i c a l te s t i n g pe r NE T A Ac c e p t a n c e Te s t i n g Sp e c i f i c a t i o n . f) S u b m i t ce r t i f i e d re p o r t to en g i n e e r fo r re v i e w . 3. 9 S e t al l fi e l d ‐ad j u s t a b l e ci r c u i t ‐br e a k e r se t t i n g s as sp e c i f i e d in Se c t i o n 26 0 5 7 0 . 3. 1 0 T r a i n Ow n e r ’ s pe r s o n n e l to ad j u s t , ma i n t a i n , an d op e r a t e sw i t c h b o a r d s , ov e r c u r r e n t pr o t e c t i v e de v i c e s , in s t r u m e n t a t i o n , an d ac c e s s o r i e s . Ow n e r ’ s pe r s o n n e l mu s t si g n ac c e p t a n c e of tr a i n i n g , wi t h o u t si g n a t u r e , it sh a l l be as th o u g h tr a i n i n g wa s no t pe r f o r m e d . 26 24 16 ‐ PA N E L B O A R D S PA R T 1 ‐ GE N E R A L 1. 1 Pr o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n . 1. 2 P r o v i d e se i s m i c ce r t i f i c a t i o n wh e n re q u i r e d . 1. 3 D o no t de l i v e r or in s t a l l pa n e l b o a r d s un t i l sp a c e s ar e en c l o s e d an d we a t h e r t i g h t . PA R T 2 ‐ PR O D U C T S 2. 1 E n c l o s u r e s : Su r f a c e ‐mo u n t e d , de a d ‐fr o n t ca b i n e t s , NE M A Ty p e 1, hi n g e d fr o n t co v e r wi t h lo c k i n g ha r d w a r e an d st a n d a r d tw o ‐co a t ba k e d ‐on fi n i s h , ga l v a n i z e d st e e l ba c k bo x . 2. 2 I n c o m i n g ma i n s : Fi e l d co n v e r t i b l e be t w e e n to p an d bo t t o m . 2. 3 B u s s e s : Ti n ‐pl a t e d al u m i n u m , fu l l y ra t e d . 2. 4 Co n n e c t o r s : Ra t e d fo r 75 ° C Cu / A L , me c h a n i c a l ty p e . 2. 5 I n t e r r u p t i n g ra t i n g s : Ma y be se r i e s ra t e d wi t h in t e g r a l or up s t r e a m de v i c e s , if UL li s t e d fo r th a t ra t i n g . Mi n i m u m ra t i n g of 10 kA fo r 20 8 V sy s t e m s , an d 14 kA fo r 48 0 V sy s t e m s . 2. 6 Ci r c u i t br e a k e r s : Bo l t ‐on ty p e , al l fr a m e si z e s . 2. 7 D i s c o n n e c t i n g an d ov e r c u r r e n t pr o t e c t i v e de v i c e s : a) T h e r m a l ‐ma g n e t i c ci r c u i t br e a k e r s : Ad j u s t a b l e ma g n e t i c tr i p fo r fr a m e si z e s 25 0 A an d la r g e r . b) Gr o u n d ‐Fa u l t Eq u i p m e n t Pr o t e c t i o n ci r c u i t br e a k e r s : Cl a s s B gr o u n d fa u l t pr o t e c t i o n (3 0 ‐mA tr i p ) . c) M C C B fe a t u r e s : St a n d a r d fr a m e si z e s , me c h a n i c a l lu g s , li s t e d fo r ap p l i c a t i o n , in t e g r a l l y mo u n t e d gr o u n d fa u l t pr o t e c t i o n wh e r e re q u i r e d . d) M u l t i p o l e un i t s : Fa c t o r y as s e m b l e d to op e r a t e as a si n g l e un i t . e) H a n d l e pa d l o c k i n g de v i c e : Fi x e d at t a c h m e n t , ma y lo c k ci r c u i t br e a k e r ha n d l e in on or of f po s i t i o n . 2. 8 Ci r c u i t di r e c t o r y : Pr i n t e d ci r c u i t di r e c t o r y id e n t i f y i n g ea c h ci r c u i t in su f f i c i e n t de t a i l to di s t i n g u i s h fr o m al l ot h e r s , mo u n t i n g in tr a n s p a r e n t ca r d ho l d e r . PA R T 3 ‐ EX E C U T I O N 3. 1 L a b e l al l pa n e l b o a r d s pe r Se c t i o n 26 0 5 5 3 . 3. 2 R e c e i v e , st o r e , an d pr o t e c t pa n e l b o a r d s ac c o r d i n g to ac c e p t e d be s t pr a c t i c e s . 3. 3 E x a m i n e fo r mo i s t u r e da m a g e pr i o r to in s t a l l a t i o n . 3. 4 At t a c h pa n e l b o a r d s to ve r t i c a l fi n i s h e d or st r u c t u r a l su r f a c e be h i n d pa n e l b o a r d , pe r Se c t i o n 26 0 5 2 9 . 3. 5 M o u n t to p of tr i m 90 ” ab o v e fi n i s h e d fl o o r . 3. 6 T o r q u e al l me c h a n i c a l co n n e c t i o n s us i n g a ca l i b r a t e d to r q u e de v i c e . 3. 7 In s t a l l fi l l e r pl a t e s in al l sp a c e s . 3. 8 S t u b fo u r (4 ) 1” em p t y co n d u i t s fr o m pa n e l b o a r d in t o ce i l i n g sp a c e or to ba r jo i s t le v e l , fo r fu t u r e us e . 3. 9 B u n d l e co n d u c t o r s us i n g ti e wr a p s . 3. 1 0 Ac c e p t a n c e te s t i n g pr i o r to en e r g i z i n g : Te s t co n t i n u i t y of al l ci r c u i t s . Te s t ea c h ci r c u i t an d co m p o n e n t fo r sh o r t an d gr o u n d fa u l t s . 3. 1 1 A c c e p t a n c e te s t i n g af t e r en e r g i z i n g : Te s t vo l t a g e , an d re c o r d me a s u r e d va l u e s . 3. 1 2 Se t al l fi e l d ‐ad j u s t a b l e ci r c u i t ‐br e a k e r se t t i n g s as sp e c i f i e d in Se c t i o n 26 0 5 7 0 . 3. 1 3 T r a i n Ow n e r ’ s pe r s o n n e l in th e op e r a t i o n an d ma i n t e n a n c e of al l pa n e l b o a r d s . Ow n e r ’ s pe r s o n n e l mu s t si g n ac c e p t a n c e of tr a i n i n g , wi t h o u t si g n a t u r e , it sh a l l be as th o u g h tr a i n i n g wa s no t pe r f o r m e d . 26 27 26 – WI R I N G DE V I C E S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 D u p l e x co n v e n i e n c e re c e p t a c l e s : 12 5 V, 20 A; co m p l y wi t h NE M A WD 1, NE M A WD 6 Co n f i g u r a t i o n 5 ‐20 R , UL 49 8 , an d FS W ‐C ‐59 6 . 2. 2 D u p l e x GF C I co n v e n i e n c e re c e p t a c l e s : 12 5 V, 20 A, no n ‐fe e d th r o u g h ; co m p l y wi t h NE M A WD 1, NE M A WD 6 Co n f i g u r a t i o n 5 ‐20 R , UL 49 8 , UL 94 3 Cl a s s A, an d FS W ‐C ‐59 6 . In c l u d e in d i c a t o r li g h t fo r ma l f u n c t i o n s re q u i r i n g re p l a c e m e n t . 2. 3 T w i s t ‐Lo c k , Si n g l e Co n v e n i e n c e Re c e p t a c l e s : Ra t i n g s an d NE M A co n f i g u r a t i o n as in d i c a t e d on dr a w i n g s ; co m p l y wi t h NE M A WD 1 an d UL 49 8 . 2. 4 C o r d an d pl u g se t s : Ra t i n g s an d NE M A co n f i g u r a t i o n s as in d i c a t e d on th e dr a w i n g s , us i n g Ty p e SO co r d , wi t h gr o u n d i n g co n d u c t o r . 2. 5 T o g g l e sw i t c h e s : 12 0 / 2 7 7 V, 20 A; co m p l y wi t h NE M A WD 1, UL 20 , an d FS W ‐S ‐89 6 . 2. 6 F l o o r bo x e s : Mo d u l a r , du a l ‐se r v i c e un i t s ; in t e g r a l ba r r i e r be t w e e n po w e r an d da t a ; ro u n d , di e ‐ca s t al u m i n u m pl a t e s . 2. 7 P o k e ‐th r o u g h as s e m b l i e s : Co m p l y wi t h UL 51 4 ; fl u s h ty p e wi t h fo u r si m p l e x re c e p t a c l e s an d sp a c e fo r fo u r RJ ‐45 ja c k s ; 4” co r e d ho l e s ; fi r e ra t e d . 2. 8 D e v i c e co l o r s : a) N o r m a l po w e r : As se l e c t e d by Ar c h i t e c t un l e s s ot h e r w i s e re q u i r e d by NF P A 70 . b) Em e r g e n c y po w e r : Re d 2. 9 W a l l pl a t e co l o r : Ma t c h de v i c e co l o r fo r pl a s t i c pl a t e s . PA R T 3 ‐ EX E C U T I O N 3. 1 C o m p l y wi t h NE C Ar t i c l e 30 0 . 3. 2 R e p l a c e de v i c e s th a t ha v e be e n in te m p o r a r y us e du r i n g co n s t r u c t i o n , th a t we r e in s t a l l e d be f o r e bu i l d i n g fi n i s h e s . 3. 3 Us e si d e ‐wi r i n g te r m i n a l s or cl a m p s on l y . St a b ‐in co n n e c t i o n s sh a l l no t be ac c e p t a b l e . 3. 4 T i g h t e n un u s e d te r m i n a l s . 3. 5 O r i e n t gr o u n d pi n up fo r ve r t i c a l re c e p t a c l e s , an d le f t fo r ho r i z o n t a l re c e p t a c l e s . 3. 6 U s e st a n d a r d si z e de v i c e pl a t e s . 3. 7 Id e n t i f y ea c h re c e p t a c l e pe r Se c t i o n 26 0 5 5 3 , us i n g wi r e ta g s or ma r k e r s in s i d e ou t l e t bo x e s . 3. 8 Us i n g a st a n d a r d re c e p t a c l e te s t i n g de v i c e , ve r i f y th a t vo l t a g e is pr e s e n t an d no fa u l t co n d i t i o n s ex i s t , an d co r r e c t GF C I op e r a t i o n of al l re c e p t a c l e s . Re p a i r an y de f e c t s an d su b m i t te s t i n g re p o r t in d i c a t i n g co m p l e t i o n of te s t i n g . 26 28 13 – FU S E S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n if re q u i r e d by co n t r a c t . PA R T 2 ‐ PR O D U C T S 2. 1 F u s e s : NE M A FU 1, cu r r e n t ‐li m i t i n g , Cl a s s J, 60 0 V, 20 0 kA I C . 2. 2 S p a r e fu s e ca b i n e t : Wa l l mo u n t e d un i t , ke y e d lo c k , hi n g e d do o r , gr a y en a m e l fi n i s h , “S P A R E FU S E S ” si g n pe r Se c t i o n 26 0 5 5 3 , ca p a c i t y fo r sp a r e s pl u s 15 pe r c e n t ex t r a . PA R T 3 ‐ EX E C U T I O N 3. 1 Vi s u a l l y in s p e c t fo r da m a g e be f o r e in s t a l l a t i o n . 3. 2 W h e r e us e d , in s t a l l Cl a s s J, hi g h sp e e d fu s e s . 3. 3 I n s t a l l sp a r e ‐fu s e ca b i n e t as in d i c a t e d in th e fi e l d by Ow n e r . 26 28 16 – EN C L O S E D SW I T C H E S & CI R C U I T BR E A K E R S PA R T 1 ‐ GE N E R A L 1. 1 Pr o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n . PA R T 2 ‐ PR O D U C T S 2. 1 Fu s i b l e sw i t c h e s : Ty p e HD , he a v y du t y ; si n g l e th r o w , th r e e po l e , 60 0 V, UL 98 an d NE M A KS 1, wi t h cl i p s or bo l t pa d s fo r in d i c a t e d fu s e s ; lo c k a b l e ha n d l e in t e r l o c k e d wi t h co v e r in cl o s e d po s i t i o n ; me c h a n i c a l co n n e c t o r lu g s . 2. 2 N o n ‐fu s i b l e sw i t c h e s : Ty p e HD , he a v y du t y ; si n g l e th r o w , th r e e po l e , 60 0 V, UL 98 an d NE M A KS 1; lo c k a b l e ha n d l e in t e r l o c k e d wi t h co v e r in cl o s e d po s i t i o n ; me c h a n i c a l co n n e c t o r lu g s . 2. 3 R e c e p t a c l e sw i t c h e s : Ty p e HD , he a v y du t y ; si n g l e th r o w , th r e e po l e , no n ‐ fu s i b l e , 60 0 V, UL 98 an d NE M A KS 1; lo c k a b l e ha n d l e in t e r l o c k e d wi t h co v e r in cl o s e d po s i t i o n ; me c h a n i c a l co n n e c t o r lu g s . Pr o v i d e me c h a n i c a l in t e r l o c k i n g li n k a g e be t w e e n re c e p t a c l e an d sw i t c h su c h th a t pl u g ma y no t be in s e r t e d or re m o v e d wi t h th e sw i t c h in th e on po s i t i o n , an d su c h th a t an in c o r r e c t pl u g or in c o r r e c t l y in s e r t e d pl u g wi l l pr e v e n t th e sw i t c h fr o m be i n g pl a c e d in th e on po s i t i o n . 2. 4 S h u n t tr i p sw i t c h e s : Ty p e HD , he a v y du t y ; si n g l e th r o w , th r e e po l e , 60 0 V, UL 98 , AS M E A1 7 . 1 , an d NE M A KS 1; lo c k a b l e ha n d l e in t e r l o c k e d wi t h co v e r in cl o s e d po s i t i o n ; me c h a n i c a l co n n e c t o r lu g s , in t e g r a l sh u n t tr i p me c h a n i s m . Pr o v i d e te s t sw i t c h , pi l o t li g h t , au x i l i a r y co n t a c t s , an d Fo r m C al a r m co n t a c t s . 2. 5 M o l d e d ca s e ci r c u i t br e a k e r s : Co m p l y wi t h re q u i r e m e n t s in Se c t i o n 26 2 4 1 6 . 2. 6 E n c l o s u r e s – dr y lo c a t i o n s : NE M A Ty p e 1, gr a y ba k e d en a m e l pa i n t . 2. 7 E n c l o s u r e s – we t lo c a t i o n s , fr e e z e r s : NE M A Ty p e 4 ‐4X st a i n l e s s st e e l , no kn o c k o u t s pr o v i d e d . PA R T 3 ‐ EX E C U T I O N 3. 1 En s u r e en c l o s u r e s ar e ra t e d fo r en v i r o n m e n t to be in s t a l l e d in . 3. 2 I n s t a l l in d i v i d u a l de v i c e s wi t h to p s at a un i f o r m he i g h t . 3. 3 I d e n t i f y pe r Se c t i o n 26 0 5 5 3 . 3. 4 T e s t i n g pr i o r to en e r g i z i n g : a) Vi s u a l l y in s p e c t fo r da m a g e an d co r r e c t te r m i n a t i o n s . b) T e s t al l co n n e c t i o n s fo r sh o r t , gr o u n d fa u l t , an d hi g h re s i s t a n c e co n d i t i o n s . c) V e r i f y ti g h t n e s s of al l co n n e c t i o n s . d) Ve r i f y op e r a t i o n of al l me c h a n i s m s . 26 29 13 . 0 3 – MA N U A L & MA G N E T I C MO T O R CO N T R O L L E R S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n . PA R T 2 ‐ PR O D U C T S 2. 1 M a n u a l mo t o r st a r t i n g sw i t c h e s : “Q u i c k ‐ma k e , qu i c k ‐br e a k ” op e r a t i o n , ma r k e d sh o w i n g on or of f ; no n r e v e r s i n g , su r f a c e mo u n t e d , pi l o t li g h t . 2. 2 En c l o s e d fu l l ‐vo l t a g e ma g n e t i c mo t o r co n t r o l l e r s : Ac r o s s ‐th e ‐li n e st a r t , 60 0 V; no n r e v e r s i n g ; in t e g r a l co n t r o l po w e r tr a n s f o r m e r ; in t e g r a l th e r m a l ov e r l o a d re l a y s , ad j u s t e d to ma t c h na m e p l a t e ra t i n g s an d au t o m a t i c re s e t t i n g . 2. 3 Id e n t i f y pe r Se c t i o n 26 0 5 5 3 . PA R T 3 ‐ EX E C U T I O N 3. 1 In s t a l l wi t h to p s at a un i f o r m he i g h t on wa l l s or fr e e s t a n d i n g ra c k s . 3. 2 A d j u s t th e r m a l ov e r l o a d re l a y s to ma t c h na m e p l a t e ra t i n g s . 3. 3 T e s t i n g pr i o r to en e r g i z i n g : a) V i s u a l l y in s p e c t fo r da m a g e an d co r r e c t te r m i n a t i o n s . b) Te s t al l co n n e c t i o n s fo r sh o r t , gr o u n d fa u l t , an d hi g h re s i s t a n c e co n d i t i o n s . c) V e r i f y ti g h t n e s s of al l co n n e c t i o n s . d) V e r i f y op e r a t i o n of al l me c h a n i s m s . e) Ve r i f y ov e r l o a d el e m e n t ra t i n g s an d se t t i n g s . 3. 4 P e r f o r m fu n c t i o n a l te s t af t e r en e r g i z i n g to ve r i f y op e r a t i o n . 3. 5 T r a i n Ow n e r ’ s pe r s o n n e l in th e op e r a t i o n an d ma i n t e n a n c e of al l co n t r o l l e r s . Ow n e r ’ s pe r s o n n e l mu s t si g n ac c e p t a n c e of tr a i n i n g , wi t h o u t si g n a t u r e , it sh a l l be as th o u g h tr a i n i n g wa s no t pe r f o r m e d . 26 32 13 . 1 3 – DI E S E L EM E R G E N C Y EN G I N E GE N E R A T O R S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n . 1. 2 P r o v i d e se i s m i c pe r f o r m a n c e ce r t i f i c a t i o n wh e r e re q u i r e d . PA R T 2 ‐ PR O D U C T S 2. 1 C o m p l y wi t h NF P A 11 0 , Le v e l 1 EP S S . 2. 2 Co m p l y wi t h EP A Ti e r 2 re q u i r e m e n t s . 2. 3 M u s t op e r a t e wi t h hi g h sa l t ‐du s t co n t e n t in ai r du e to se a ‐sp r a y ev a p o r a t i o n . 2. 4 E n g i n e ge n e r a t o r : 1, 0 0 0 kV A , .8 la g g i n g po w e r fa c t o r , 60 Hz , 48 0 Y / 2 7 7 V , mo u n t e d on a ri g i d st r u c t u r a l st e e l fr a m e . Co m p l y wi t h NF P A 11 0 , Ty p e 10 st a r t i n g re q u i r e m e n t s . 2. 5 D i e s e l en g i n e : Ja c k e t co o l a n t he a t e r , cl o s e d lo o p co o l i n g sy s t e m , st a n d a r d mu f f l e r / s i l e n c e r . 2. 6 D i e s e l fu e l ‐oi l sy s t e m : su b b a s e ‐mo u n t e d , do u b l e ‐wa l l , 24 ho u r s ru n ti m e ca p a c i t y at ma x i m u m fu e l co n s u m p t i o n . 2. 7 C o n t r o l s : a) A u t o m a t i c ‐St a r t i n g Sy s t e m Se q u e n c e of Op e r a t i o n : Wh e n mo d e ‐ se l e c t o r sw i t c h on th e co n t r o l an d mo n i t o r i n g pa n e l is in th e au t o m a t i c po s i t i o n , re m o t e ‐co n t r o l co n t a c t s in on e or mo r e se p a r a t e au t o m a t i c tr a n s f e r sw i t c h e s in i t i a t e st a r t i n g an d st o p p i n g of en g i n e ge n e r a t o r . Wh e n mo d e ‐se l e c t o r sw i t c h is sw i t c h e d to th e on po s i t i o n , en g i n e ge n e r a t o r st a r t s . Th e of f po s i t i o n of sa m e sw i t c h in i t i a t e s en g i n e ge n e r a t o r sh u t d o w n . Wh e n en g i n e ge n e r a t o r is ru n n i n g , sp e c i f i e d sy s t e m or eq u i p m e n t fa i l u r e s or de r a n g e m e n t s au t o m a t i c a l l y sh u t do w n en g i n e ge n e r a t o r an d in i t i a t e al a r m s . b) M a n u a l ‐St a r t i n g Sy s t e m Se q u e n c e of Op e r a t i o n : Sw i t c h i n g on ‐of f sw i t c h on th e ge n e r a t o r co n t r o l pa n e l to th e on po s i t i o n st a r t s en g i n e ge n e r a t o r . Th e of f po s i t i o n of sa m e sw i t c h in i t i a t e s en g i n e ge n e r a t o r sh u t d o w n . Wh e n en g i n e ge n e r a t o r is ru n n i n g , sp e c i f i e d sy s t e m or eq u i p m e n t fa i l u r e s or de r a n g e m e n t s au t o m a t i c a l l y sh u t do w n en g i n e ge n e r a t o r an d in i t i a t e al a r m s . c) C o n f i g u r a t i o n : Op e r a t i n g an d sa f e t y in d i c a t i o n s , pr o t e c t i v e de v i c e s , ba s i c sy s t e m co n t r o l s , an d en g i n e ga g e s sh a l l be gr o u p e d in a co m m o n co n t r o l an d mo n i t o r i n g pa n e l mo u n t e d on th e en g i n e ge n e r a t o r . Mo u n t i n g me t h o d sh a l l is o l a t e th e co n t r o l pa n e l fr o m en g i n e ge n e r a t o r vi b r a t i o n . Pa n e l sh a l l be po w e r e d fr o m th e en g i n e ge n e r a t o r ba t t e r y . d) C o m m o n Re m o t e Pa n e l wi t h Co m m o n Au d i b l e Al a r m : Co m p l y wi t h NF P A 11 0 re q u i r e m e n t s fo r Le v e l 1 sy s t e m s . In c l u d e ne c e s s a r y co n t a c t s an d te r m i n a l s in co n t r o l an d mo n i t o r i n g pa n e l . Re m o t e pa n e l sh a l l be po w e r e d fr o m th e en g i n e ge n e r a t o r ba t t e r y . e) R e m o t e Em e r g e n c y ‐St o p Sw i t c h : Fl u s h ; wa l l mo u n t e d , un l e s s ot h e r w i s e in d i c a t e d ; an d la b e l e d . Pu s h bu t t o n sh a l l be pr o t e c t e d fr o m ac c i d e n t a l op e r a t i o n . 2. 8 G e n e r a t o r ci r c u i t br e a k e r : Mo l d e d ‐ca s e , el e c t r o n i c ‐tr i p ty p e , 10 0 pe r c e n t ra t e d ; ad j u s t a b l e lo n g , sh o r t , an d in s t a n t a n e o u s tr i p s . 2. 9 G e n e r a t o r en c l o s u r e : We a t h e r p r o o f al u m i n u m en c l o s u r e , wi n d re s i s t a n t to 10 0 mp h , lo c k a b l e do o r s ; in c l u d e in t e r n a l li g h t i n g , co n v e n i e n c e ou t l e t s , an d lo a d ce n t e r wi t h si n g l e po i n t co n n e c t i o n . PA R T 3 ‐ EX E C U T I O N 3. 1 I n s t a l l pa c k a g e d en g i n e ge n e r a t o r on ca s t ‐in ‐pl a c e co n c r e t e pa d , as de s i g n e d by th e st r u c t u r a l en g i n e e r . 3. 2 C o n n e c t al l re q u i r e d wi r i n g us i n g fl e x i b l e co n d u i t co n n e c t i o n s . 3. 3 En g a g e a fa c t o r y ‐au t h o r i z e d se r v i c e te c h n i c i a n to pe r f o r m te s t s an d in s p e c t i o n s a) C o m p l e t e al l re q u i r e d pr e ‐st a r t u p te s t i n g an d in s p e c t i o n s pe r ma n u f a c t u r e r s ’ in s t r u c t i o n s . b) Pe r f o r m NF P A 11 0 ac c e p t a n c e te s t i n g , re c o r d al l re s u l t s . c) V e r i f y pr o p e r op e r a t i o n an d vo l t a g e of al l tr a n s f e r sw i t c h e s an d ge n e r a t o r ou t p u t . d) I n s p e c t fo r le a k s po s t ‐te s t i n g . 3. 4 Tr a i n Ow n e r ’ s pe r s o n n e l to ad j u s t , op e r a t e , an d ma i n t a i n en g i n e ge n e r a t o r s an d as s o c i a t e d eq u i p m e n t . Ve r i f y th a t Ow n e r ’ s pe r s o n n e l un d e r s t a n d th e i r ob l i g a t i o n s to me e t NF P A 11 0 re q u i r e m e n t s fo r pe r i o d i c ex e r c i s e an d te s t i n g pr o c e d u r e s . Ow n e r ’ s pe r s o n n e l sh a l l si g n ac c e p t a n c e of tr a i n i n g . 26 36 00 – TR A N S F E R SW I T C H E S PA R T 1 ‐ GE N E R A L 1. 1 P r o v i d e su b m i t t a l s fo r al l it e m s in th i s se c t i o n . 1. 2 P r o v i d e se i s m i c pe r f o r m a n c e ce r t i f i c a t i o n wh e r e re q u i r e d . PA R T 2 ‐ PR O D U C T S 2. 1 C o m p l y wi t h NE M A IC S 1, NF P A 99 , NF P A 11 0 Le v e l 1 EP S S , an d UL 10 0 8 . 2. 2 Se r v i c e ra t e d tr a n s f e r sw i t c h : Au t o m a t i c op e r a t i o n , so l i d l y bo n d e d ne u t r a l wi t h di s c o n n e c t i n g li n k , gr o u n d fa u l t pr o t e c t i o n fo r no r m a l bu s , in t e g r a l co n t r o l in t e r f a c e , NE M A Ty p e 1. 2. 3 C o n t a c t o r ‐ty p e au t o m a t i c tr a n s f e r sw i t c h e s : a) Sw i t c h Ch a r a c t e r i s t i c s : De s i g n e d fo r co n t i n u o u s ‐du t y re p e t i t i v e tr a n s f e r of fu l l ‐ra t e d cu r r e n t be t w e e n ac t i v e po w e r so u r c e s . b) L i m i t a t i o n : Sw i t c h e s us i n g mo l d e d ‐ca s e sw i t c h e s or ci r c u i t br e a k e r s or in s u l a t e d ‐ca s e ci r c u i t ‐br e a k e r co m p o n e n t s ar e un a c c e p t a b l e . c) Sw i t c h Ac t i o n : Do u b l e th r o w ; me c h a n i c a l l y he l d in bo t h di r e c t i o n s . d) C o n t a c t s : Si l v e r co m p o s i t i o n or si l v e r al l o y fo r lo a d ‐cu r r e n t sw i t c h i n g . Co n t a c t o r ‐st y l e au t o m a t i c tr a n s f e r ‐sw i t c h un i t s , ra t e d 60 0 A an d hi g h e r , sh a l l ha v e se p a r a t e ar c i n g co n t a c t s . e) Co n d u c t o r Co n n e c t o r s : Su i t a b l e fo r us e wi t h co n d u c t o r ma t e r i a l an d si z e s . f) M a t e r i a l : Ti n ‐pl a t e d al u m i n u m . g) M a i n an d Ne u t r a l Lu g s : Me c h a n i c a l ty p e . h) Gr o u n d Lu g s an d Bu s ‐Co n f i g u r e d Te r m i n a t o r s : Me c h a n i c a l ty p e . i) G r o u n d ba r . j) C o n n e c t o r s sh a l l be ma r k e d fo r co n d u c t o r si z e an d ty p e ac c o r d i n g to UL 10 0 8 . 2. 4 Au t o m a t i c Op e n ‐Tr a n s i t i o n Tr a n s f e r Sw i t c h e s : Me c h a n i c a l l y an d el e c t r i c a l l y in t e r l o c k e d to pr e v e n t th e lo a d fr o m be i n g cl o s e d on bo t h so u r c e s at th e sa m e ti m e . 2. 5 E l e c t r i c Sw i t c h Op e r a t i o n : El e c t r i c a l l y ac t u a t e d by pu s h bu t t o n s de s i g n a t e d "N o r m a l So u r c e " an d "A l t e r n a t i v e So u r c e . " Sw i t c h sh a l l be ca p a b l e of tr a n s f e r r i n g lo a d in ei t h e r di r e c t i o n wi t h ei t h e r or bo t h so u r c e s en e r g i z e d . 2. 6 A u t o m a t i c Tr a n s f e r ‐Sw i t c h Co n t r o l l e r Fe a t u r e s : a) C o n t r o l l e r op e r a t e s th r o u g h a pe r i o d of lo s s of co n t r o l po w e r . b) Un d e r v o l t a g e Se n s i n g fo r Ea c h Ph a s e of No r m a l So u r c e : Se n s e lo w ph a s e ‐to ‐gr o u n d vo l t a g e on ea c h ph a s e . Pi c k u p vo l t a g e sh a l l be ad j u s t a b l e fr o m 85 to 10 0 pe r c e n t of no m i n a l , an d dr o p o u t vo l t a g e sh a l l be ad j u s t a b l e fr o m 75 to 98 pe r c e n t of pi c k u p va l u e . Fa c t o r y se t fo r pi c k u p at 90 pe r c e n t an d dr o p o u t at 85 pe r c e n t . c) V o l t a g e / F r e q u e n c y Lo c k o u t Re l a y : Pr e v e n t pr e m a t u r e tr a n s f e r to ge n e r a t o r . Pi c k u p vo l t a g e sh a l l be ad j u s t a b l e fr o m 85 to 10 0 pe r c e n t of no m i n a l . Fa c t o r y se t fo r pi c k u p at 90 pe r c e n t . Pi c k u p fr e q u e n c y sh a l l be ad j u s t a b l e fr o m 90 to 10 0 pe r c e n t of no m i n a l . Fa c t o r y se t fo r pi c k u p at 95 pe r c e n t . d) T i m e De l a y fo r Re t r a n s f e r to No r m a l So u r c e : Ad j u s t a b l e fr o m ze r o to 30 mi n u t e s , an d fa c t o r y se t fo r 10 mi n u t e s . Ov e r r i d e sh a l l au t o m a t i c a l l y de f e a t de l a y on lo s s of vo l t a g e or su s t a i n e d un d e r v o l t a g e of em e r g e n c y so u r c e , pr o v i d e d no r m a l su p p l y ha s be e n re s t o r e d . e) T e s t Sw i t c h : Si m u l a t e no r m a l ‐so u r c e fa i l u r e . f) S w i t c h ‐Po s i t i o n Pi l o t Li g h t s : In d i c a t e so u r c e to wh i c h lo a d is co n n e c t e d . g) So u r c e ‐Av a i l a b l e In d i c a t i n g Li g h t s : Su p e r v i s e so u r c e s vi a tr a n s f e r ‐ sw i t c h no r m a l ‐ an d em e r g e n c y ‐so u r c e se n s i n g ci r c u i t s . h) N o r m a l Po w e r Su p e r v i s i o n : Gr e e n li g h t wi t h na m e p l a t e en g r a v e d "N o r m a l So u r c e Av a i l a b l e . " i) Em e r g e n c y Po w e r Su p e r v i s i o n : Re d li g h t wi t h na m e p l a t e en g r a v e d "E m e r g e n c y So u r c e Av a i l a b l e . " j) U n a s s i g n e d Au x i l i a r y Co n t a c t s : Tw o no r m a l l y op e n , si n g l e ‐po l e , do u b l e ‐ th r o w co n t a c t s fo r ea c h sw i t c h po s i t i o n , ra t e d 10 A at 24 0 ‐V ac . k) Tr a n s f e r Ov e r r i d e Sw i t c h : Ov e r r i d e s au t o m a t i c re t r a n s f e r co n t r o l so tr a n s f e r sw i t c h wi l l re m a i n co n n e c t e d to em e r g e n c y po w e r so u r c e re g a r d l e s s of co n d i t i o n of no r m a l so u r c e . Pi l o t li g h t in d i c a t e s ov e r r i d e st a t u s . l) En g i n e St a r t i n g Co n t a c t s : On e is o l a t e d an d no r m a l l y cl o s e d , an d on e is o l a t e d an d no r m a l l y op e n ; ra t e d 10 A at 32 ‐V dc mi n i m u m . m) E n g i n e Sh u t d o w n Co n t a c t s : In s t a n t a n e o u s ; sh a l l in i t i a t e sh u t d o w n se q u e n c e at re m o t e en g i n e ‐ge n e r a t o r co n t r o l s af t e r re t r a n s f e r of lo a d to no r m a l so u r c e . n) E n g i n e Sh u t d o w n Co n t a c t s : Ti m e de l a y ad j u s t a b l e fr o m ze r o to fi v e mi n u t e s , an d fa c t o r y se t fo r fi v e mi n u t e s . Co n t a c t s sh a l l in i t i a t e sh u t d o w n at re m o t e en g i n e ‐ge n e r a t o r co n t r o l s af t e r re t r a n s f e r of lo a d to no r m a l so u r c e . o) E n g i n e ‐Ge n e r a t o r Ex e r c i s e r : So l i d ‐st a t e , pr o g r a m m a b l e ‐ti m e sw i t c h st a r t s en g i n e ge n e r a t o r an d tr a n s f e r s lo a d to it fr o m no r m a l so u r c e fo r a pr e s e t ti m e , th e n re t r a n s f e r s an d sh u t s do w n en g i n e af t e r a pr e s e t co o l ‐do w n pe r i o d . In i t i a t e s ex e r c i s e cy c l e at pr e s e t in t e r v a l s ad j u s t a b l e fr o m 7 to 30 da y s . Ru n n i n g pe r i o d s sh a l l be ad j u s t a b l e fr o m 10 to 30 mi n u t e s . Fa c t o r y se t t i n g s sh a l l be fo r 7 ‐da y ex e r c i s e cy c l e , 20 ‐mi n u t e ru n n i n g pe r i o d , an d 5 ‐mi n u t e co o l ‐do w n pe r i o d . Ex e r c i s e r fe a t u r e s in c l u d e th e fo l l o w i n g : p) E x e r c i s e r Tr a n s f e r Se l e c t o r Sw i t c h : Pe r m i t s se l e c t i o n of ex e r c i s e wi t h an d wi t h o u t lo a d tr a n s f e r . q) P u s h ‐bu t t o n pr o g r a m m i n g co n t r o l wi t h di g i t a l di s p l a y of se t t i n g s . r) In t e g r a l ba t t e r y op e r a t i o n of ti m e sw i t c h wh e n no r m a l co n t r o l po w e r is un a v a i l a b l e . 2. 7 L a r g e ‐Mo t o r ‐Lo a d Po w e r Tr a n s f e r : a) M o t o r Di s c o n n e c t an d Ti m i n g Re l a y Co n t r o l s : De s i g n a t e d st a r t e r s in lo s s of po w e r sc e n a r i o sh a l l di s c o n n e c t mo t o r s be f o r e tr a n s f e r an d re c o n n e c t th e m se l e c t i v e l y at an ad j u s t a b l e ti m e in t e r v a l af t e r tr a n s f e r . Co n t r o l co n n e c t i o n to mo t o r st a r t e r s sh a l l be th r o u g h wi r i n g ex t e r n a l to au t o m a t i c tr a n s f e r sw i t c h . Pr o v i d e ad j u s t a b l e ti m e de l a y be t w e e n 1 an d 60 se c o n d s fo r re c o n n e c t i n g in d i v i d u a l mo t o r lo a d s . Pr o v i d e re l a y co n t a c t s ra t e d fo r mo t o r ‐co n t r o l ci r c u i t in r u s h an d fo r ac t u a l se a l cu r r e n t s to be en c o u n t e r e d . PA R T 3 ‐ EX E C U T I O N 3. 1 I n s t a l l tr a n s f e r sw i t c h e s on ca s t ‐in ‐pl a c e co n c r e t e eq u i p m e n t ba s e s . 3. 2 S e t al l fi e l d ‐ad j u s t a b l e in t e r v a l s an d de l a y s , re l a y s , an d en g i n e ex e r c i s e r cl o c k . 3. 3 Co o r d i n a t e co n t r o l wi r i n g wi t h en g i n e ge n e r a t o r re q u i r e m e n t s . 3. 4 P e r f o r m ac c e p t a n c e te s t i n g co n c u r r e n t l y wi t h en g i n e ge n e r a t o r ac c e p t a n c e te s t i n g : a) A f t e r in s t a l l i n g eq u i p m e n t , te s t fo r co m p l i a n c e wi t h re q u i r e m e n t s ac c o r d i n g to NE T A AT S , in c l u d i n g , bu t no t li m i t e d to th e fo l l o w i n g in s p e c t i o n s . 3. 5 V i s u a l an d Me c h a n i c a l In s p e c t i o n : a) C o m p a r e eq u i p m e n t na m e p l a t e da t a wi t h Dr a w i n g s an d Sp e c i f i c a t i o n s . b) In s p e c t ph y s i c a l an d me c h a n i c a l co n d i t i o n . c) I n s p e c t an c h o r a g e , al i g n m e n t , gr o u n d i n g , an d re q u i r e d cl e a r a n c e s . d) V e r i f y th a t th e un i t is cl e a n . e) V e r i f y ap p r o p r i a t e lu b r i c a t i o n on mo v i n g cu r r e n t ‐ca r r y i n g pa r t s an d on mo v i n g an d sl i d i n g su r f a c e s . f) V e r i f y th a t ma n u a l tr a n s f e r wa r n i n g s ar e at t a c h e d an d vi s i b l e . g) V e r i f y ti g h t n e s s of al l co n t r o l co n n e c t i o n s . h) I n s p e c t bo l t e d el e c t r i c a l co n n e c t i o n s fo r hi g h re s i s t a n c e us i n g a lo w ‐ re s i s t a n c e oh m m e t e r or ve r i f y i n g ti g h t n e s s of bo l t e d co n n e c t i o n s . i) P e r f o r m ma n u a l tr a n s f e r op e r a t i o n . j) V e r i f y po s i t i v e me c h a n i c a l in t e r l o c k i n g be t w e e n no r m a l an d al t e r n a t e so u r c e s . k) Pe r f o r m vi s u a l an d me c h a n i c a l in s p e c t i o n of su r g e ar r e s t e r s . l) I n s p e c t co n t r o l po w e r tr a n s f o r m e r s . m) In s p e c t fo r ph y s i c a l da m a g e , cr a c k e d in s u l a t i o n , br o k e n le a d s , ti g h t n e s s of co n n e c t i o n s , de f e c t i v e wi r i n g , an d ov e r a l l ge n e r a l co n d i t i o n . n) Ve r i f y th a t pr i m a r y an d se c o n d a r y fu s e or ci r c u i t ‐br e a k e r ra t i n g s ma t c h Dr a w i n g s . o) V e r i f y co r r e c t fu n c t i o n i n g of dr a w o u t di s c o n n e c t i n g co n t a c t s , gr o u n d i n g co n t a c t s , an d in t e r l o c k s . 3. 6 El e c t r i c a l Te s t s : a) P e r f o r m in s u l a t i o n ‐re s i s t a n c e te s t s on al l co n t r o l wi r i n g wi t h re s p e c t to gr o u n d . b) P e r f o r m a co n t a c t / p o l e ‐re s i s t a n c e te s t . Co m p a r e me a s u r e d va l u e s wi t h ma n u f a c t u r e r ' s ac c e p t a b l e va l u e s . c) V e r i f y se t t i n g s an d op e r a t i o n of co n t r o l de v i c e s . d) C a l i b r a t e an d se t al l re l a y s an d ti m e r s . e) V e r i f y ph a s e ro t a t i o n , ph a s i n g , an d sy n c h r o n i z e d op e r a t i o n . f) Pe r f o r m au t o m a t i c tr a n s f e r te s t s . 3. 7 V e r i f y co r r e c t op e r a t i o n an d ti m i n g of th e fo l l o w i n g fu n c t i o n s : a) N o r m a l so u r c e vo l t a g e ‐se n s i n g an d fr e q u e n c y ‐se n s i n g re l a y s . b) E n g i n e st a r t se q u e n c e . c) Ti m e de l a y on tr a n s f e r . d) A l t e r n a t i v e so u r c e vo l t a g e ‐se n s i n g an d fr e q u e n c y ‐se n s i n g re l a y s . e) A u t o m a t i c tr a n s f e r op e r a t i o n . f) I n t e r l o c k s an d li m i t sw i t c h fu n c t i o n . g) Ti m e de l a y an d re t r a n s f e r on no r m a l po w e r re s t o r a t i o n . h) E n g i n e co o l ‐do w n an d sh u t d o w n fe a t u r e . i) C h e c k fo r el e c t r i c a l co n t i n u i t y of ci r c u i t s an d fo r sh o r t ci r c u i t s . j) I n s p e c t fo r ph y s i c a l da m a g e , pr o p e r in s t a l l a t i o n an d co n n e c t i o n , an d in t e g r i t y of ba r r i e r s , co v e r s , an d sa f e t y fe a t u r e s . k) V e r i f y th a t ma n u a l tr a n s f e r wa r n i n g s ar e pr o p e r l y pl a c e d . l) P e r f o r m ma n u a l tr a n s f e r op e r a t i o n . m) A f t e r en e r g i z i n g ci r c u i t s , pe r f o r m ea c h el e c t r i c a l te s t fo r tr a n s f e r sw i t c h e s st a t e d in NE T A AT S an d de m o n s t r a t e in t e r l o c k i n g se q u e n c e an d op e r a t i o n a l fu n c t i o n fo r ea c h sw i t c h at le a s t th r e e ti m e s . n) S i m u l a t e po w e r fa i l u r e s of no r m a l so u r c e to au t o m a t i c tr a n s f e r sw i t c h e s an d re t r a n s f e r fr o m em e r g e n c y so u r c e wi t h no r m a l so u r c e av a i l a b l e . o) Si m u l a t e lo s s of ph a s e ‐to ‐gr o u n d vo l t a g e fo r ea c h ph a s e of no r m a l so u r c e . p) V e r i f y ti m e ‐de l a y se t t i n g s . q) V e r i f y pi c k u p an d dr o p o u t vo l t a g e s by da t a re a d o u t or in s p e c t i o n of co n t r o l se t t i n g s . r) T e s t by p a s s / i s o l a t i o n un i t fu n c t i o n a l mo d e s an d re l a t e d au t o m a t i c tr a n s f e r ‐sw i t c h op e r a t i o n s . s) V e r i f y pr o p e r se q u e n c e an d co r r e c t ti m i n g of au t o m a t i c en g i n e st a r t i n g , tr a n s f e r ti m e de l a y , re t r a n s f e r ti m e de l a y on re s t o r a t i o n of no r m a l po w e r , an d en g i n e co o l ‐do w n an d sh u t d o w n . t) G r o u n d ‐Fa u l t Te s t s : Co o r d i n a t e wi t h te s t i n g of gr o u n d ‐fa u l t pr o t e c t i v e de v i c e s fo r po w e r de l i v e r y fr o m bo t h so u r c e s . u) Ve r i f y gr o u n d i n g co n n e c t i o n s an d lo c a t i o n s an d ra t i n g s of se n s o r s . 3.8 Submit all testing reports to the Engineer for review.3.9 Train Owner’s personnel to adjust, operate, and maintain transfer switches and related equipment. Include training on testing ground ‐fault protective devices. Owner’s personnel shall sign acceptance of training; without signature, it shall be as though training was never performed.26 51 00 – LIGHTING PART 1 ‐ GENERAL 1.1 Provide submittals for all items in this section.PART 2 ‐ PRODUCTS 2.1 All products in this section are specified in schedules located on the drawings. Any substitutions shall have equivalent performance, and be approved by the Architect.PART 3 ‐ EXECUTION 3.1 If permanent luminaires are used for temporary lighting, clean said luminaires when construction is substantially complete.3.2 Install luminaires plumb, level, and square with ceilings and walls.3.3 Provide supports sized and rated for luminaires, and attached directly to structural elements.3.4 Ceiling grid mounted luminaires shall have a minimum of two independent supports, similar to ceiling grid wire, located at opposite corners and fastened to building structure.3.5 For luminaires with integral battery units, provide a pilot light and test switch to test the operation of the battery unit.3.6 Concrete Pole Foundations: Cast in place, with anchor bolts to match pole ‐base flange. Structural steel complying with ASTM A 36/A 36M and hot ‐dip galvanized according to ASTM A 123/A 123 M; and with top ‐plate and mounting bolts to match pole ‐base flange and strength required to support pole, luminaire, and accessories. Concrete, reinforcement, and formwork are specified in Section 033000 "Cast ‐in ‐Place Concrete."3.7 Pre ‐Cast Foundations: Factory fabricated, with structural steel complying with ASTM A 36/A 36M and hot ‐dip galvanized according to ASTM A 123/A 123M; and with top ‐plate and mounting bolts to match pole ‐base flange and strength required to support pole, luminaire, and accessories. Concrete, reinforcement, and formwork are specified in Section 033000 "Cast ‐in ‐Place Concrete."3.8 Align poles as indicated.3.9 Raise and set pole using web fabric slings, at locations indicated by the manufacturer.3.10 Exterior wall mounted luminaire supports:a)Concrete walls: Attached using approved fasteners.b) Insulated metal panel walls: Attached using through bolts and backing plates on either side of a wall, as indicated.3.11 Coordinate layout with all other construction.3.12 Install cables in raceways, and conceal where possible.3.13 Adjust all luminaires that require field adjustment or aiming. If required, adjust luminaires during hours of darkness to ensure accuracy.C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com SPECIFICATIONS - PAGE 2 E003NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ENERGY CODE CALCULATIONS E004 E0 0 4 EN E R G Y C O D E C A L C U L A T I O N S 1 NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 4Yd.4Yd. UP UP 10 1 10 2 10 3 #1 #2 #1 #2 10 7 10 6 10 4 10 5 10 8 10 9 11 1 11 2 11 3 11 4 11 4 11 5 11 6 117 #3 118 119 120 121122 11 0 VE S T I B U L E LO B B Y LO B B Y ST A I R STAIR EL E V A T O R EL E V A T O R CO R R I D O R VE N D I N G EL E C T R I C A L DA T A VE S T I B U L E VE S T I B U L E JA N I T O R HA L L W A Y WO M E N ME N TE N A N T OF F I C E OF F I C E GEAR ELEVATOR LOBBY CORRIDOR WATER TRASHMETERS ST O R A G E EL E V A T O R MA I L / TE L E P H O N E / OP E N OP E N SWITCH SERVICE ELEVATOR SERVICE UTILITY F F F F S 45 c d 45 c d 45cd 45 c d FS TS TS S 110cdS 1 2 3 4 5 6 7 8 9 10 ABCDEF HV 2 HV 1 LV 1 A LV 1 T1 MD P - A DI S T . FA C P FU T . 1 LV 1 - 1 LV 1 - 1 LV 1 - 1 LV 1 - 1 LV 1 - 1 LV 1 - 1 LV 1 - 4 LV 1 - 4 LV 1 - 3 LV 1 - 5 LV 1 - 5 LV 1 - 6 LV1- 7LV1- 7 LV 1 - 7 FA A P DIST MDP-BUTILITYTRANSFORMERS 2 3 4 5P.I.V. 6 (8 ) 4 " P V C C O N D U I T S (6) 4" PVC CONDUITS (4 ) 4 " P V C C O N D U I T S TO T E L C O 6 VAV-1-1 VA V - 1 - 3 VA V - 1 - 4 VA V - 1 - 2 HV 1 - 7, 9 , 1 1 HV1-13,15,17CUH-1 HV1- 1,3,5 HV 1 - 2 , 4 , 6 UH-1 LV1-8,10,12 UH-2LV1-9,11,13 HV 1 - 14 , 1 6 , 1 8 HV 1 - 19 , 2 1 , 2 3 HV 1 - 20 , 2 2 , 2 4 CU H - 1 CU H - 1 HV 1 - 8, 1 0 , 1 2 WH - 1 LV 1 - 1 4 9 PO W E R P L A N S - GE N E R A L N O T E S 01 . E X P O S E D C A B L E S I N S T A L L E D I N A P L E N U M S P A C E S H A L L BE P L E N U M R A T E D A N D C O N F O R M T O T H E C U R R E N T NE C . N E C A R T I C L E 3 0 0 . 2 2 ( C ) 02 . A L L R E C E P T A C L E S M O U N T E D A T O R A B O V E C O U N T E R S , SH E L V E S , E T C . , S H A L L B E V E R I F I E D W I T H T H E O W N E R PR I O R T O R O U G H -IN . 03 . A L L R E C E P T A C L E S M O U N T E D W I T H I N 6 ' O F A S I N K , O R A S NO T E D I N T H E N E C , S H A L L B E G F C I P R O T E C T E D . NE C A R T I C L E 2 1 0 . 8 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L F U R N I T U R E F E E D S S H A L L B E C O O R D I N A T E D W I T H T H E AR C H I T E C T A N D / O R F U R N I T U R E V E N D O R , I N C L U D I N G EX A C T L O C A T I O N S O R A N Y S P E C I A L R E Q U I R E M E N T S , PR I O R T O R O U G H I N . 06 . A L L U N D E R G R O U N D C O N D U I TS S H A L L B E W A T E R T I G H T AN D C L E A R O F A N Y C O N S T R U C T I O N D E B R I S P R I O R T O TH E I N S T A L L A T I O N O F C A B L E S . S E A L B O T H E N D S W I T H E X P A N D A B L E F O A M O R A N A P P R O V E D S E A L A N T ON C E I N S T A L L A T I O N I S C O M P L E T E D T O P R E V E N T T H E EN T R A N C E O F A I R O R W A T E R . 07 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 08 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 09 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E PO W E R & S Y S T E M S P L A N S - KE Y E D N O T E S TE L E P H O N E T E R M I N A L B O A R D . F U R N I S H 4 ' x 8 ' T R E A T E D PL Y W O O D B O A R D A N D G R O U N D I N G B A R F O R T E L C O US E . I N S T A L L ( 4 ) 4 " P V C C O N D U I T S T O B U I L D I N G E X T E R I O R . FI R E A L A R M C O N T R O L P A N E L . P R O V I D E D E D I C A T E D 1 2 0 V CI R C U I T A S R E Q U I R E D . FI R E A L A R M A N N U N C I A T O R P A N E L . C O N F I R M L O C A T I O N IS A C C E P T A B L E T O C A R M E L F I R E M A R S H A L . PR O V I D E T A M P E R A N D W A T E R F L O W D E T E C T I O N D E V I C E S FO R S P R I N K L E R S Y S T E M . C O N F I R M S Y S T E M L A Y O U T W I T H FI R E P R O T E C T I O N C O N T R A C T O R . PO S T I N D I C A T I N G V A L V E ( P I V ) . P R O V I D E M O N I T O R I N G P O I N T TO S E N D A S U P E R V I S O R Y S I G N A L T O T H E F I R E A L A R M CO N T R O L P A N E L I F T H E V A L V E I S C L O S E D . SY S T E M S M O K E D E T E C T O R I N E L E V A T O R L O B B Y . FI R E A L A R M R E L A Y S F O R E L E V A T O R R E C A L L C O N T R O L . LO C A T E I N C O N J U N C T I O N W I T H E L E V A T O R M A C H I N E EQ U I P M E N T . RE M O T E T E S T A N D R E S E T S W I T C H E S F O R D U C T S M O K E DE T E C T O R S I N R O O F T O P E Q U I P M E N T ( 6 T O T A L ) . R E F E R TO F I R E A L A R M S C H E M A T I C O N S H E E T E 7 0 1 . V E R I F Y T H A T TH E L O C A T I O N I S A C C E P T A B L E T O T H E F I R E M A R S H A L . EL E C T R I C W A T E R H E A T E R . 1 5 0 0 W A T T , 1 2 0 V O L T . P R O V I D E DI S C O N N E C T I N G M E A N S I F N O T P R O V I D E D O N U N I T . CO M B I N A T I O N D I S C O N N E C T / S T A R T E R F O R E X H A U S T F A N EF -1 O N R O O F . R E F E R T O S H E E T E 2 0 6 . 1 2 3 4 5 AL L N O T E S M A Y N O T A P P E A R O N T H I S S H E E T 6 7 8 9 10 FI R E A L A R M P L A N S - GE N E R A L N O T E S 1. I N I T I A T I N G C I R C U I T S S H A L L B E 1 8 / 2 A W G T W I S T E D P A I R F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . 2. N A C C I R C U I T S S H A L L B E 1 2 / 2 A W G F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ELECTRICAL &SYSTEMS PLAN -FIRST FLOOR E201 NO R T H 1 / 8 " = 1 ' - 0 " E2 0 1 1 EL E C T R I C A L & S Y S T E M S P L A N - FI R S T F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN 20 1 #1 #2 #1 #2 21 3 20 2 20 5 20 6 20 7 21 2 #3 20 4 20 3 208 20 9 21 1 21 0 LO B B Y ST A I R STAIR EL E V A T O R EL E V A T O R CO R R I D O R EL E C T . HA L L W A Y WO M E N ME N OF F I C E ELEVATOR JA N I T O R DA T A LOBBY OF F I C E OF F I C E OF F I C E EL E V A T O R OP E N TE L E / SERVICE ELEVATOR OP E N OP E N OP E N S S 1 2 3 4 5 6 7 8 9 10 ABCDEF J K L M N O P QRSTUV HV 4 HV 3 LV 2 A LV 2 LV 2 - 2 LV 2 - 3 LV 2 - 3 LV 2 - 1 LV 2 - 4 LV 2 - 4 LV 2 - 4 LV 2 - 5 LV 2 - 6 LV 2 - 6 1 6 6 VA V - 2 - 1 VA V - 2 - 3 VA V - 2 - 2 HV 3 - 1 , 3 , 5 HV 3 - 7, 9 , 1 1 HV 3 - 2 , 4 , 6 HV3-8,10,12 CUH-1 WH - 1 LV 2 - 7 9 PO W E R P L A N S - GE N E R A L N O T E S 01 . E X P O S E D C A B L E S I N S T A L L E D I N A P L E N U M S P A C E S H A L L BE P L E N U M R A T E D A N D C O N F O R M T O T H E C U R R E N T NE C . N E C A R T I C L E 3 0 0 . 2 2 ( C ) 02 . A L L R E C E P T A C L E S M O U N T E D A T O R A B O V E C O U N T E R S , SH E L V E S , E T C . , S H A L L B E V E R I F I E D W I T H T H E O W N E R PR I O R T O R O U G H -IN . 03 . A L L R E C E P T A C L E S M O U N T E D W I T H I N 6 ' O F A S I N K , O R A S NO T E D I N T H E N E C , S H A L L B E G F C I P R O T E C T E D . NE C A R T I C L E 2 1 0 . 8 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L F U R N I T U R E F E E D S S H A L L B E C O O R D I N A T E D W I T H T H E AR C H I T E C T A N D / O R F U R N I T U R E V E N D O R , I N C L U D I N G EX A C T L O C A T I O N S O R A N Y S P E C I A L R E Q U I R E M E N T S , PR I O R T O R O U G H I N . 06 . A L L U N D E R G R O U N D C O N D U I T S S H A L L B E W A T E R T I G H T AN D C L E A R O F A N Y C O N S T R U C T I O N D E B R I S P R I O R T O TH E I N S T A L L A T I O N O F C A B L E S . S E A L B O T H E N D S W I T H E X P A N D A B L E F O A M O R A N A P P R O V E D S E A L A N T ON C E I N S T A L L A T I O N I S C O M P L E T E D T O P R E V E N T T H E EN T R A N C E O F A I R O R W A T E R . 07 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 08 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 09 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E PO W E R & S Y S T E M S P L A N S - KE Y E D N O T E S TE L E P H O N E T E R M I N A L B O A R D . F U R N I S H 4 ' x 8 ' T R E A T E D PL Y W O O D B O A R D A N D G R O U N D I N G B A R F O R T E L C O US E . I N S T A L L ( 4 ) 4 " P V C C O N D U I T S T O B U I L D I N G E X T E R I O R . FI R E A L A R M C O N T R O L P A N E L . P R O V I D E D E D I C A T E D 1 2 0 V CI R C U I T A S R E Q U I R E D . FI R E A L A R M A N N U N C I A T O R P A N E L . C O N F I R M L O C A T I O N IS A C C E P T A B L E T O C A R M E L F I R E M A R S H A L . PR O V I D E T A M P E R A N D W A T E R F L O W D E T E C T I O N D E V I C E S FO R S P R I N K L E R S Y S T E M . C O N F I R M S Y S T E M L A Y O U T W I T H FI R E P R O T E C T I O N C O N T R A C T O R . PO S T I N D I C A T I N G V A L V E ( P I V ) . P R O V I D E M O N I T O R I N G P O I N T TO S E N D A S U P E R V I S O R Y S I G N A L T O T H E F I R E A L A R M CO N T R O L P A N E L I F T H E V A L V E I S C L O S E D . SY S T E M S M O K E D E T E C T O R I N E L E V A T O R L O B B Y . FI R E A L A R M R E L A Y S F O R E L E V A T O R R E C A L L C O N T R O L . LO C A T E I N C O N J U N C T I O N W I T H E L E V A T O R M A C H I N E EQ U I P M E N T . RE M O T E T E S T A N D R E S E T S W I T C H E S F O R D U C T S M O K E DE T E C T O R S I N R O O F T O P E Q U I P M E N T ( 6 T O T A L ) . R E F E R TO F I R E A L A R M S C H E M A T I C O N S H E E T E 7 0 1 . V E R I F Y T H A T TH E L O C A T I O N I S A C C E P T A B L E T O T H E F I R E M A R S H A L . EL E C T R I C W A T E R H E A T E R . 1 5 0 0 W A T T , 1 2 0 V O L T . P R O V I D E DI S C O N N E C T I N G M E A N S I F N O T P R O V I D E D O N U N I T . CO M B I N A T I O N D I S C O N N E C T / S T A R T E R F O R E X H A U S T F A N EF -1 O N R O O F . R E F E R T O S H E E T E 2 0 6 . 1 2 3 4 5 AL L N O T E S M A Y N O T A P P E A R O N T H I S S H E E T 6 7 8 9 10 FI R E A L A R M P L A N S - GE N E R A L N O T E S 1. I N I T I A T I N G C I R C U I T S S H A L L B E 1 8 / 2 A W G T W I S T E D P A I R F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . 2. N A C C I R C U I T S S H A L L B E 1 2 / 2 A W G F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ELECTRICAL &SYSTEMS PLAN -SECOND FLOOR E202 NO R T H 1 / 8 " = 1 ' - 0 " E2 0 2 1 EL E C T R I C A L & S Y S T E M S P L A N - SE C O N D F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN 30 1 #1 #2 #1 #2 30 2 30 5 30 6 30 7 31 3 #3 30 4 30 3 308 30 9 31 1 31 0 LO B B Y ST A I R STAIR EL E V A T O R EL E V A T O R EL E C T . HA L L W A Y WO M E N ME N OF F I C E ELEVATOR JA N I T O R DA T A LOBBY OF F I C E OF F I C E OF F I C E EL E V A T O R OP E N TE L E / SERVICE ELEVATOR OP E N OP E N OP E N S S 1 2 3 4 5 6 7 8 9 10 ABCDEF J K L M N O P QRSTUV HV 6 HV 5 LV 3 A LV 3 LV 3 - 2 LV 3 - 3 LV 3 - 3 LV 3 - 1 LV 3 - 4 LV 3 - 4 LV 3 - 4 LV 3 - 5 LV 3 - 6 LV 3 - 6 1 6 6 VA V - 3 - 2 VA V - 3 - 1 VA V - 3 - 3 HV 5 - 1 , 3 , 5 HV 5 - 7, 9 , 1 1 HV 5 - 2 , 4 , 6 HV5-8,10,12 CUH-1 9 LV 3 - 7 9 WH - 1 PO W E R P L A N S - GE N E R A L N O T E S 01 . E X P O S E D C A B L E S I N S T A L L E D I N A P L E N U M S P A C E S H A L L BE P L E N U M R A T E D A N D C O N F O R M T O T H E C U R R E N T NE C . N E C A R T I C L E 3 0 0 . 2 2 ( C ) 02 . A L L R E C E P T A C L E S M O U N T E D A T O R A B O V E C O U N T E R S , SH E L V E S , E T C . , S H A L L B E V E R I F I E D W I T H T H E O W N E R PR I O R T O R O U G H -IN . 03 . A L L R E C E P T A C L E S M O U N T E D W I T H I N 6 ' O F A S I N K , O R A S NO T E D I N T H E N E C , S H A L L B E G F C I P R O T E C T E D . NE C A R T I C L E 2 1 0 . 8 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L F U R N I T U R E F E E D S S H A L L B E C O O R D I N A T E D W I T H T H E AR C H I T E C T A N D / O R F U R N I T U R E V E N D O R , I N C L U D I N G EX A C T L O C A T I O N S O R A N Y S P E C I A L R E Q U I R E M E N T S , PR I O R T O R O U G H I N . 06 . A L L U N D E R G R O U N D C O N D U I T S S H A L L B E W A T E R T I G H T AN D C L E A R O F A N Y C O N S T R U C T I O N D E B R I S P R I O R T O TH E I N S T A L L A T I O N O F C A B L E S . S E A L B O T H E N D S W I T H E X P A N D A B L E F O A M O R A N A P P R O V E D S E A L A N T ON C E I N S T A L L A T I O N I S C O M P L E T E D T O P R E V E N T T H E EN T R A N C E O F A I R O R W A T E R . 07 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 08 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 09 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E PO W E R & S Y S T E M S P L A N S - KE Y E D N O T E S TE L E P H O N E T E R M I N A L B O A R D . F U R N I S H 4 ' x 8 ' T R E A T E D PL Y W O O D B O A R D A N D G R O U N D I N G B A R F O R T E L C O US E . I N S T A L L ( 4 ) 4 " P V C C O N D U I T S T O B U I L D I N G E X T E R I O R . FI R E A L A R M C O N T R O L P A N E L . P R O V I D E D E D I C A T E D 1 2 0 V CI R C U I T A S R E Q U I R E D . FI R E A L A R M A N N U N C I A T O R P A N E L . C O N F I R M L O C A T I O N IS A C C E P T A B L E T O C A R M E L F I R E M A R S H A L . PR O V I D E T A M P E R A N D W A T E R F L O W D E T E C T I O N D E V I C E S FO R S P R I N K L E R S Y S T E M . C O N F I R M S Y S T E M L A Y O U T W I T H FI R E P R O T E C T I O N C O N T R A C T O R . PO S T I N D I C A T I N G V A L V E ( P I V ) . P R O V I D E M O N I T O R I N G P O I N T TO S E N D A S U P E R V I S O R Y S I G N A L T O T H E F I R E A L A R M CO N T R O L P A N E L I F T H E V A L V E I S C L O S E D . SY S T E M S M O K E D E T E C T O R I N E L E V A T O R L O B B Y . FI R E A L A R M R E L A Y S F O R E L E V A T O R R E C A L L C O N T R O L . LO C A T E I N C O N J U N C T I O N W I T H E L E V A T O R M A C H I N E EQ U I P M E N T . RE M O T E T E S T A N D R E S E T S W I T C H E S F O R D U C T S M O K E DE T E C T O R S I N R O O F T O P E Q U I P M E N T ( 6 T O T A L ) . R E F E R TO F I R E A L A R M S C H E M A T I C O N S H E E T E 7 0 1 . V E R I F Y T H A T TH E L O C A T I O N I S A C C E P T A B L E T O T H E F I R E M A R S H A L . EL E C T R I C W A T E R H E A T E R . 1 5 0 0 W A T T , 1 2 0 V O L T . P R O V I D E DI S C O N N E C T I N G M E A N S I F N O T P R O V I D E D O N U N I T . CO M B I N A T I O N D I S C O N N E C T / S T A R T E R F O R E X H A U S T F A N EF -1 O N R O O F . R E F E R T O S H E E T E 2 0 6 . 1 2 3 4 5 AL L N O T E S M A Y N O T A P P E A R O N T H I S S H E E T 6 7 8 9 10 FI R E A L A R M P L A N S - GE N E R A L N O T E S 1. I N I T I A T I N G C I R C U I T S S H A L L B E 1 8 / 2 A W G T W I S T E D P A I R F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . 2. N A C C I R C U I T S S H A L L B E 1 2 / 2 A W G F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ELECTRICAL &SYSTEMS PLAN -THIRD FLOOR E203 NO R T H 1 / 8 " = 1 ' - 0 " E2 0 3 1 EL E C T R I C A L & S Y S T E M S P L A N - TH I R D F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN 41 4 40 9 41 1 41 0 40 1 #1 #2 #1 #2 40 2 40 5 40 6 40 7 #3 40 4 40 3 408 OF F I C E OF F I C E OF F I C E OF F I C E LO B B Y ST A I R STAIR EL E V A T O R EL E V A T O R EL E C T . HA L L W A Y WO M E N ME N ELEVATOR JA N I T O R DA T A LOBBY OP E N OP E N OP E N OP E N EL E V A T O R TE L E / SERVICE ELEVATOR S S 1 2 3 4 5 6 7 8 9 10 ABCDEF J K L M N O P QRSTUV LV 4 - 2 LV 4 - 3 LV 4 - 3 LV 4 - 1 LV 4 - 4 LV 4 - 4 LV 4 - 4 LV 4 - 5 LV 4 - 6 LV 4 - 6 1 6 HV 8 HV 7 LV 4 LV 4 A 6 VA V - 4 - 2 VA V - 4 - 1 VA V - 4 - 3 HV 7 - 1 , 3 , 5 HV 7 - 7, 9 , 1 1 HV 7 - 2 , 4 , 6 HV7-8,10,12 CUH-1 9 LV 4 - 7 9 WH - 1 PO W E R P L A N S - GE N E R A L N O T E S 01 . E X P O S E D C A B L E S I N S T A L L E D I N A P L E N U M S P A C E S H A L L BE P L E N U M R A T E D A N D C O N F O R M T O T H E C U R R E N T NE C . N E C A R T I C L E 3 0 0 . 2 2 ( C ) 02 . A L L R E C E P T A C L E S M O U N T E D A T O R A B O V E C O U N T E R S , SH E L V E S , E T C . , S H A L L B E V E R I F I E D W I T H T H E O W N E R PR I O R T O R O U G H -IN . 03 . A L L R E C E P T A C L E S M O U N T E D W I T H I N 6 ' O F A S I N K , O R A S NO T E D I N T H E N E C , S H A L L B E G F C I P R O T E C T E D . NE C A R T I C L E 2 1 0 . 8 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L F U R N I T U R E F E E D S S H A L L B E C O O R D I N A T E D W I T H T H E AR C H I T E C T A N D / O R F U R N I T U R E V E N D O R , I N C L U D I N G EX A C T L O C A T I O N S O R A N Y S P E C I A L R E Q U I R E M E N T S , PR I O R T O R O U G H I N . 06 . A L L U N D E R G R O U N D C O N D U I T S S H A L L B E W A T E R T I G H T AN D C L E A R O F A N Y C O N S T R U C T I O N D E B R I S P R I O R T O TH E I N S T A L L A T I O N O F C A B L E S . S E A L B O T H E N D S W I T H E X P A N D A B L E F O A M O R A N A P P R O V E D S E A L A N T ON C E I N S T A L L A T I O N I S C O M P L E T E D T O P R E V E N T T H E EN T R A N C E O F A I R O R W A T E R . 07 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 08 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 09 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E PO W E R & S Y S T E M S P L A N S - KE Y E D N O T E S TE L E P H O N E T E R M I N A L B O A R D . F U R N I S H 4 ' x 8 ' T R E A T E D PL Y W O O D B O A R D A N D G R O U N D I N G B A R F O R T E L C O US E . I N S T A L L ( 4 ) 4 " P V C C O N D U I T S T O B U I L D I N G E X T E R I O R . FI R E A L A R M C O N T R O L P A N E L . P R O V I D E D E D I C A T E D 1 2 0 V CI R C U I T A S R E Q U I R E D . FI R E A L A R M A N N U N C I A T O R P A N E L . C O N F I R M L O C A T I O N IS A C C E P T A B L E T O C A R M E L F I R E M A R S H A L . PR O V I D E T A M P E R A N D W A T E R F L O W D E T E C T I O N D E V I C E S FO R S P R I N K L E R S Y S T E M . C O N F I R M S Y S T E M L A Y O U T W I T H FI R E P R O T E C T I O N C O N T R A C T O R . PO S T I N D I C A T I N G V A L V E ( P I V ) . P R O V I D E M O N I T O R I N G P O I N T TO S E N D A S U P E R V I S O R Y S I G N A L T O T H E F I R E A L A R M CO N T R O L P A N E L I F T H E V A L V E I S C L O S E D . SY S T E M S M O K E D E T E C T O R I N E L E V A T O R L O B B Y . FI R E A L A R M R E L A Y S F O R E L E V A T O R R E C A L L C O N T R O L . LO C A T E I N C O N J U N C T I O N W I T H E L E V A T O R M A C H I N E EQ U I P M E N T . RE M O T E T E S T A N D R E S E T S W I T C H E S F O R D U C T S M O K E DE T E C T O R S I N R O O F T O P E Q U I P M E N T ( 6 T O T A L ) . R E F E R TO F I R E A L A R M S C H E M A T I C O N S H E E T E 7 0 1 . V E R I F Y T H A T TH E L O C A T I O N I S A C C E P T A B L E T O T H E F I R E M A R S H A L . EL E C T R I C W A T E R H E A T E R . 1 5 0 0 W A T T , 1 2 0 V O L T . P R O V I D E DI S C O N N E C T I N G M E A N S I F N O T P R O V I D E D O N U N I T . CO M B I N A T I O N D I S C O N N E C T / S T A R T E R F O R E X H A U S T F A N EF -1 O N R O O F . R E F E R T O S H E E T E 2 0 6 . 1 2 3 4 5 AL L N O T E S M A Y N O T A P P E A R O N T H I S S H E E T 6 7 8 9 10 FI R E A L A R M P L A N S - GE N E R A L N O T E S 1. I N I T I A T I N G C I R C U I T S S H A L L B E 1 8 / 2 A W G T W I S T E D P A I R F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . 2. N A C C I R C U I T S S H A L L B E 1 2 / 2 A W G F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ELECTRICAL &SYSTEMS PLAN -FOURTH FLOOR E204 NO R T H 1 / 8 " = 1 ' - 0 " E2 0 4 1 EL E C T R I C A L & S Y S T E M S P L A N - FO U R T H F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN 51 5 50 9 51 1 51 0 50 1 #1 #2 #1 #2 50 2 50 5 50 6 50 7 #3 50 3 508 50 4 OF F I C E OF F I C E OF F I C E OF F I C E LO B B Y ST A I R STAIR EL E V A T O R EL E V A T O R EL E C T . HA L L W A Y WO M E N ME N ELEVATOR DA T A LOBBY JA N I T O R OP E N OP E N OP E N OP E N EL E V A T O R TE L E / SERVICE ELEVATOR S S 1 2 3 4 5 6 7 8 9 10 ABCDEF J K L M N O P QRSTUV HV 1 0 HV 9 LV 5 A LV 5 LV 5 - 2 LV 5 - 3 LV 5 - 3 LV 5 - 1 LV 5 - 4 LV 5 - 4 LV 5 - 4 LV 5 - 5 LV 5 - 6 LV 5 - 6 6 6 8 VA V - 5 - 2 VA V - 5 - 1 VA V - 5 - 3 HV 9 - 1 , 3 , 5 HV 9 - 7, 9 , 1 1 HV 9 - 2 , 4 , 6 HV9-8,10,12 CUH-1 9 LV 5 - 7 9 WH - 2 10 HV 1 0 - 1, 3 , 5 PO W E R P L A N S - GE N E R A L N O T E S 01 . E X P O S E D C A B L E S I N S T A L L E D I N A P L E N U M S P A C E S H A L L BE P L E N U M R A T E D A N D C O N F O R M T O T H E C U R R E N T NE C . N E C A R T I C L E 3 0 0 . 2 2 ( C ) 02 . A L L R E C E P T A C L E S M O U N T E D A T O R A B O V E C O U N T E R S , SH E L V E S , E T C . , S H A L L B E V E R I F I E D W I T H T H E O W N E R PR I O R T O R O U G H -IN . 03 . A L L R E C E P T A C L E S M O U N T E D W I T H I N 6 ' O F A S I N K , O R A S NO T E D I N T H E N E C , S H A L L B E G F C I P R O T E C T E D . NE C A R T I C L E 2 1 0 . 8 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L F U R N I T U R E F E E D S S H A L L B E C O O R D I N A T E D W I T H T H E AR C H I T E C T A N D / O R F U R N I T U R E V E N D O R , I N C L U D I N G EX A C T L O C A T I O N S O R A N Y S P E C I A L R E Q U I R E M E N T S , PR I O R T O R O U G H I N . 06 . A L L U N D E R G R O U N D C O N D U I T S S H A L L B E W A T E R T I G H T AN D C L E A R O F A N Y C O N S T R U C T I O N D E B R I S P R I O R T O TH E I N S T A L L A T I O N O F C A B L E S . S E A L B O T H E N D S WI T H E X P A N D A B L E F O A M O R A N A P P R O V E D S E A L A N T ON C E I N S T A L L A T I O N I S C O M P L E T E D T O P R E V E N T T H E EN T R A N C E O F A I R O R W A T E R . 07 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 08 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 09 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E PO W E R & S Y S T E M S P L A N S - KE Y E D N O T E S TE L E P H O N E T E R M I N A L B O A R D . F U R N I S H 4 ' x 8 ' T R E A T E D PL Y W O O D B O A R D A N D G R O U N D I N G B A R F O R T E L C O US E . I N S T A L L ( 4 ) 4 " P V C C O N D U I T S T O B U I L D I N G E X T E R I O R . FI R E A L A R M C O N T R O L P A N E L . P R O V I D E D E D I C A T E D 1 2 0 V CI R C U I T A S R E Q U I R E D . FI R E A L A R M A N N U N C I A T O R P A N E L . C O N F I R M L O C A T I O N IS A C C E P T A B L E T O C A R M E L F I R E M A R S H A L . PR O V I D E T A M P E R A N D W A T E R F L O W D E T E C T I O N D E V I C E S FO R S P R I N K L E R S Y S T E M . C O N F I R M S Y S T E M L A Y O U T W I T H FI R E P R O T E C T I O N C O N T R A C T O R . PO S T I N D I C A T I N G V A L V E ( P I V ) . P R O V I D E M O N I T O R I N G P O I N T TO S E N D A S U P E R V I S O R Y S I G N A L T O T H E F I R E A L A R M CO N T R O L P A N E L I F T H E V A L V E I S C L O S E D . SY S T E M S M O K E D E T E C T O R I N E L E V A T O R L O B B Y . FI R E A L A R M R E L A Y S F O R E L E V A T O R R E C A L L C O N T R O L . LO C A T E I N C O N J U N C T I O N W I T H E L E V A T O R M A C H I N E EQ U I P M E N T . RE M O T E T E S T A N D R E S E T S W I T C H E S F O R D U C T S M O K E DE T E C T O R S I N R O O F T O P E Q U I P M E N T ( 6 T O T A L ) . R E F E R TO F I R E A L A R M S C H E M A T I C O N S H E E T E 7 0 1 . V E R I F Y T H A T TH E L O C A T I O N I S A C C E P T A B L E T O T H E F I R E M A R S H A L . EL E C T R I C W A T E R H E A T E R . 1 5 0 0 W A T T , 1 2 0 V O L T . P R O V I D E DI S C O N N E C T I N G M E A N S I F N O T P R O V I D E D O N U N I T . CO M B I N A T I O N D I S C O N N E C T / S T A R T E R F O R E X H A U S T F A N EF -1 O N R O O F . R E F E R T O S H E E T E 2 0 6 . 1 2 3 4 5 AL L N O T E S M A Y N O T A P P E A R O N T H I S S H E E T 6 7 8 9 10 FI R E A L A R M P L A N S - GE N E R A L N O T E S 1. I N I T I A T I N G C I R C U I T S S H A L L B E 1 8 / 2 A W G T W I S T E D P A I R F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . 2. N A C C I R C U I T S S H A L L B E 1 2 / 2 A W G F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ELECTRICAL &SYSTEMS PLAN -FIFTH FLOOR E205 NO R T H 1 / 8 " = 1 ' - 0 " E2 0 5 1 EL E C T R I C A L & S Y S T E M S P L A N - FI F T H F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN #1 ST A I R S S S S S S AH U - 1 AH U - 2 AH U - 3 EF - 1 J K L M N O P QRSTUV MD P - B - 1 MD P - B - 2 MD P - B - 3 HV 1 0 - 1, 3 , 5 1 1 1 2 3 3 3 3 3 3 PO W E R P L A N S - GE N E R A L N O T E S 01 . E X P O S E D C A B L E S I N S T A L L E D I N A P L E N U M S P A C E S H A L L BE P L E N U M R A T E D A N D C O N F O R M T O T H E C U R R E N T NE C . N E C A R T I C L E 3 0 0 . 2 2 ( C ) 02 . A L L R E C E P T A C L E S M O U N T E D A T O R A B O V E C O U N T E R S , SH E L V E S , E T C . , S H A L L B E V E R I F I E D W I T H T H E O W N E R PR I O R T O R O U G H -IN . 03 . A L L R E C E P T A C L E S M O U N T E D W I T H I N 6 ' O F A S I N K , O R A S NO T E D I N T H E N E C , S H A L L B E G F C I P R O T E C T E D . NE C A R T I C L E 2 1 0 . 8 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L F U R N I T U R E F E E D S S H A L L B E C O O R D I N A T E D W I T H T H E AR C H I T E C T A N D / O R F U R N I T U R E V E N D O R , I N C L U D I N G EX A C T L O C A T I O N S O R A N Y S P E C I A L R E Q U I R E M E N T S , PR I O R T O R O U G H I N . 06 . A L L U N D E R G R O U N D C O N D U I T S S H A L L B E W A T E R T I G H T AN D C L E A R O F A N Y C O N S T R U C T I O N D E B R I S P R I O R T O TH E I N S T A L L A T I O N O F C A B L E S . S E A L B O T H E N D S WI T H E X P A N D A B L E F O A M O R A N A P P R O V E D S E A L A N T ON C E I N S T A L L A T I O N I S C O M P L E T E D T O P R E V E N T T H E EN T R A N C E O F A I R O R W A T E R . 07 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 08 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 09 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E PO W E R P L A N S - KE Y E D N O T E S RO O F T O P P A C K A G E D A I R C O N D I T I O N I N G U N I T . U N I T W I L L BE F U R N I S H E D W I T H A N O N -FU S E D D I S C O N N E C T I N G M E A N S AN D A F A C T O R Y -PO W E R E D G F C I C O N V E N I E N C E R E C E P T A C L E . RO O F T O P E X H A U S T F A N . R E F E R T O M E C H A N I C A L S C H E D U L E S . LO C A T E M A G N E T I C S T A R T E R I N 5 T H F L O O R E L E C T R I C A L R O O M . PR O V I D E L O C A L D I S C O N N E C T A T T H E U N I T I F N O T P R O V I D E D . DU C T S M O K E D E T E C T O R . D E T E C T O R S A R E T O B E I N T E R L O C K E D WI T H U N I T C O N T R O L C I R C U I T T O S H U T D O W N T H E U N I T U P O N TH E P R E S E N C E O F S M O K E I N T H E D U C T . 1 2 3 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com ROOF ELECTRICAL PLAN E206 NO R T H 1 / 8 " = 1 ' - 0 " E2 0 6 1 EL E C T R I C A L P L A N - R O O F NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 UP UP UP UP OS OS F1 F 1 F 1 F 1 F 1 F 1 F1 F1 F1 F1 F1F1 F 1 F1F1 F1 F1 F1F1F1F1 F1 F1 F1 F1 F1 F1 F1 F1 F1 F1 F2 F2 F2 F2F2F2 EX E M EX E M / R EX 1 EX 1 EX 1 EX E M EX E M / R EX1 EXEMEX1 EM F2 F1 EX 1 EM EM EM EM F3 F3 EM EX E M EX E M / R o s EM F2EX1 F4 F4 F4 F 4 F4 F4 F4 F4 F4 F4 F4 F4 F4F4 F 4 F 4 F4 F 4 F1 1 2 3 4 5 6 7 8 9 10 ABCDEF F2 MD P - A DI S T . FU T . MDP-B DIST FUT. LV 1 A LV 1 HV 2 HV 1 T1 F4 F3 F3F2 EM S1 S1 S1 S 1 S 1 S1 S1 S1 S1 S 1 S1 S1 S1 S1S1 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 S2 S2S2 3 3 3 3 33 1 11 1 2 2 LI G H T I N G P L A N S - GE N E R A L N O T E S 01 . R E F E R T O A R C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S FO R E X A C T P L A C E M E N T O F A L L L I G H T I N G F I X T U R E S . VE R I F Y E X A C T C E I L I N G C O N S T R U C T I O N W I T H AR C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S A N D PR O V I D E L I G H T I N G F I X T U R E S W I T H A L L N E C E S S A R Y MO U N T I N G H A R D W A R E . 02 . A L L R E C E S S E D F I X T U R E S S H A L L B E P R O V I D E D W I T H A L L RE Q U I R E D S T R U C T U R A L S U P P O R T S A S R E Q U I R E D B Y TH E A H J . T H I S I N C L U D E S A M I N I M U M O F ( 2 ) H A N G E R WI R E S S I M I L A R T O C E I L I N G G R I D W I R E S O R J A C K C H A I N AT O P P O S I T E C O R N E R S O F A L L R E C E S S E D F I X T U R E S TO P R O V I D E S U P P O R T I N D E P E N D A N T O F T H E C E I L I N G GR I D . R E C E S S E D F I X T U R E S L O C A T E D I N A F I R E -RA T E D CE I L I N G O R W A L L S H A L L B E P R O V I D E D W I T H A 5 -SI D E D RA T E D E N C L O S U R E M A T C H I N G T H A T O F T H E C E I L I N G OR W A L L R A T I N G S . T H E E N C L O S U R E S H A L L M E E T CO D E A N D M A N U F A C T U R E R ' S R E Q U I R E D C L E A R A N C E S . 03 . A L L L I G H T F I X T U R E S M O U N T E D I N S I D E O F A N AR C H I T E C T U R A L C O V E S H A L L E X T E N D T H E F U L L LE N G T H O F T H E C O V E . C O N T R A C T O R T O V E R I F Y T H E EX A C T C O V E L E N G T H , O R D E R Q U A N T I T Y O F F I X T U R E S , AN D P R O V I D E T E L E S C O P I N G E N D U N I T S A S R E Q U I R E D . 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E . 06 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 07 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 08 . A L L E M E R G E N C Y L I G H T I N G W I T H I N D I V I D U A L B A T T E R Y BA C K U P S H A L L B E F E D F R O M T H E S A M E C I R C U I T A S TH E L I G H T I N G I N T H E A R E A W H I C H I T S E R V E S . (N E C 7 0 0 . 1 2 ( F ) ) LI G H T I N G P L A N S - KE Y E D N O T E S CO N T R A C T O R I S T O F U R N I S H L I G H T I N G F I X T U R E S T O C K FO R E A C H F L O O R . S T O C K F I X T U R E S A R E T O B E P L A C E D IN C E I L I N G G R I D A N D L E F T F O R F U T U R E C O N N E C T I O N . CE I L I N G M O U N T E D O C C U P A N C Y S E N S O R . D U A L - TE C H N O L O G Y T Y P E . AR C H I T E C T U R A L W A L L S C O N C E . R E F E R T O S H E E T A3 0 1 F O R E X A C T P L A C E M E N T . 1 2 3 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com LIGHTING PLAN -FIRST FLOOR E301 NO R T H 1 / 8 " = 1 ' - 0 " E3 0 1 1 LI G H T I N G P L A N - F I R S T F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN OS OS F1 F1 F1 F1 F1 F1 F1 F1 F1 F1 F2F2F2 F2 F2 F3 F3 EX 2 EXEM EM EM EM EM 1 2 3 4 5 6 7 8 9 10 ABCDEF HV 4 HV 3 LV 2 A LV 2 T2 F1 F1 F4 F4 F4 F 4 F4 F4 F4 F4 F4 F4 F4 F4 F4F4 F 4 F 4 F4 F 4 F4 EXEM F1 F1 F1 F1 F1 F1 F1 F1 EX E M EX E M F1 F 1 F 1 F 1 F 1 F 1 F 1 F 1 F1 EXEMF1F1F1F1F1F1 F1 EX1 EX 1 EX1 EMEM EM F3 1 11 1 2 2 1 LI G H T I N G P L A N S - GE N E R A L N O T E S 01 . R E F E R T O A R C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S FO R E X A C T P L A C E M E N T O F A L L L I G H T I N G F I X T U R E S . VE R I F Y E X A C T C E I L I N G C O N S T R U C T I O N W I T H AR C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S A N D PR O V I D E L I G H T I N G F I X T U R E S W I T H A L L N E C E S S A R Y MO U N T I N G H A R D W A R E . 02 . A L L R E C E S S E D F I X T U R E S S H A L L B E P R O V I D E D W I T H A L L RE Q U I R E D S T R U C T U R A L S U P P O R T S A S R E Q U I R E D B Y TH E A H J . T H I S I N C L U D E S A M I N I M U M O F ( 2 ) H A N G E R WI R E S S I M I L A R T O C E I L I N G G R I D W I R E S O R J A C K C H A I N AT O P P O S I T E C O R N E R S O F A L L R E C E S S E D F I X T U R E S TO P R O V I D E S U P P O R T I N D E P E N D A N T O F T H E C E I L I N G GR I D . R E C E S S E D F I X T U R E S L O C A T E D I N A F I R E -RA T E D CE I L I N G O R W A L L S H A L L B E P R O V I D E D W I T H A 5 -SI D E D RA T E D E N C L O S U R E M A T C H I N G T H A T O F T H E C E I L I N G OR W A L L R A T I N G S . T H E E N C L O S U R E S H A L L M E E T CO D E A N D M A N U F A C T U R E R ' S R E Q U I R E D C L E A R A N C E S . 03 . A L L L I G H T F I X T U R E S M O U N T E D I N S I D E O F A N AR C H I T E C T U R A L C O V E S H A L L E X T E N D T H E F U L L LE N G T H O F T H E C O V E . C O N T R A C T O R T O V E R I F Y T H E EX A C T C O V E L E N G T H , O R D E R Q U A N T I T Y O F F I X T U R E S , AN D P R O V I D E T E L E S C O P I N G E N D U N I T S A S R E Q U I R E D . 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E . 06 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 07 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 08 . A L L E M E R G E N C Y L I G H T I N G W I T H I N D I V I D U A L B A T T E R Y BA C K U P S H A L L B E F E D F R O M T H E S A M E C I R C U I T A S TH E L I G H T I N G I N T H E A R E A W H I C H I T S E R V E S . (N E C 7 0 0 . 1 2 ( F ) ) LI G H T I N G P L A N S - KE Y E D N O T E S CO N T R A C T O R I S T O F U R N I S H L I G H T I N G F I X T U R E S T O C K FO R E A C H F L O O R . S T O C K F I X T U R E S A R E T O B E P L A C E D IN C E I L I N G G R I D A N D L E F T F O R F U T U R E C O N N E C T I O N . CE I L I N G M O U N T E D O C C U P A N C Y S E N S O R . D U A L - TE C H N O L O G Y T Y P E . AR C H I T E C T U R A L W A L L S C O N C E . R E F E R T O S H E E T A3 0 1 F O R E X A C T P L A C E M E N T . 1 2 3 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com LIGHTING PLAN -SECOND FLOOR E302 NO R T H 1 / 8 " = 1 ' - 0 " E3 0 2 1 LI G H T I N G P L A N - S E C O N D FL O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN OS OS F1 F1 F1 F1 F1 F2F2F2 F2 F2 F3 F3 EM EM EMEXEM EX E M 1 2 3 4 5 6 7 8 9 10 ABCDEF HV 6 HV 5 LV 3 LV 3 A T3 F3 F1 F1 F4 F 4 F4 F4 F4 F4 F4 F4 F4 F4 F4F4 F 4 F 4 F4 F 4 F4 EMEM F3 J K L M N O P QRSTUV 1 11 1 2 2 1 LI G H T I N G P L A N S - GE N E R A L N O T E S 01 . R E F E R T O A R C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S FO R E X A C T P L A C E M E N T O F A L L L I G H T I N G F I X T U R E S . VE R I F Y E X A C T C E I L I N G C O N S T R U C T I O N W I T H AR C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S A N D PR O V I D E L I G H T I N G F I X T U R E S W I T H A L L N E C E S S A R Y MO U N T I N G H A R D W A R E . 02 . A L L R E C E S S E D F I X T U R E S S H A L L B E P R O V I D E D W I T H A L L RE Q U I R E D S T R U C T U R A L S U P P O R T S A S R E Q U I R E D B Y TH E A H J . T H I S I N C L U D E S A M I N I M U M O F ( 2 ) H A N G E R W I R E S S I M I L A R T O C E I L I N G G R I D W I R E S O R J A C K C H A I N AT O P P O S I T E C O R N E R S O F A L L R E C E S S E D F I X T U R E S TO P R O V I D E S U P P O R T I N D E P E N D A N T O F T H E C E I L I N G GR I D . R E C E S S E D F I X T U R E S L O C A T E D I N A F I R E -RA T E D CE I L I N G O R W A L L S H A L L B E P R O V I D E D W I T H A 5 -SI D E D RA T E D E N C L O S U R E M A T C H I N G T H A T O F T H E C E I L I N G OR W A L L R A T I N G S . T H E E N C L O S U R E S H A L L M E E T CO D E A N D M A N U F A C T U R E R ' S R E Q U I R E D C L E A R A N C E S . 03 . A L L L I G H T F I X T U R E S M O U N T E D I N S I D E O F A N AR C H I T E C T U R A L C O V E S H A L L E X T E N D T H E F U L L LE N G T H O F T H E C O V E . C O N T R A C T O R T O V E R I F Y T H E EX A C T C O V E L E N G T H , O R D E R Q U A N T I T Y O F F I X T U R E S , AN D P R O V I D E T E L E S C O P I N G E N D U N I T S A S R E Q U I R E D . 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E . 06 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 07 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 08 . A L L E M E R G E N C Y L I G H T I N G W I T H I N D I V I D U A L B A T T E R Y BA C K U P S H A L L B E F E D F R O M T H E S A M E C I R C U I T A S TH E L I G H T I N G I N T H E A R E A W H I C H I T S E R V E S . (N E C 7 0 0 . 1 2 ( F ) ) LI G H T I N G P L A N S - KE Y E D N O T E S CO N T R A C T O R I S T O F U R N I S H L I G H T I N G F I X T U R E S T O C K FO R E A C H F L O O R . S T O C K F I X T U R E S A R E T O B E P L A C E D IN C E I L I N G G R I D A N D L E F T F O R F U T U R E C O N N E C T I O N . CE I L I N G M O U N T E D O C C U P A N C Y S E N S O R . D U A L - TE C H N O L O G Y T Y P E . AR C H I T E C T U R A L W A L L S C O N C E . R E F E R T O S H E E T A3 0 1 F O R E X A C T P L A C E M E N T . 1 2 3 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com LIGHTING PLAN -THIRD FLOOR E303 NO R T H 1 / 8 " = 1 ' - 0 " E3 0 3 1 LI G H T I N G P L A N - T H I R D F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN OS OS F1 F1 F1 F1 F1 F1 F1 F2 F2 F3 F3 TE L / D A T A 11 0 EM EM EM EM EMEXEM EX E M 1 2 3 4 5 6 7 8 9 10 ABCDEF F2F2 HV 8 HV 7 LV 4 LV 4 A T4 F3 F3 F4 F 4 F4 F4 F4 F4 F4 F4 F4 F4 F4F4 F 4 F 4 F4 F 4 F4 J K L M N O P QRSTUV 1 11 1 2 2 1 LI G H T I N G P L A N S - GE N E R A L N O T E S 01 . R E F E R T O A R C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S FO R E X A C T P L A C E M E N T O F A L L L I G H T I N G F I X T U R E S . VE R I F Y E X A C T C E I L I N G C O N S T R U C T I O N W I T H AR C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S A N D PR O V I D E L I G H T I N G F I X T U R E S W I T H A L L N E C E S S A R Y MO U N T I N G H A R D W A R E . 02 . A L L R E C E S S E D F I X T U R E S S H A L L B E P R O V I D E D W I T H A L L RE Q U I R E D S T R U C T U R A L S U P P O R T S A S R E Q U I R E D B Y TH E A H J . T H I S I N C L U D E S A M I N I M U M O F ( 2 ) H A N G E R WI R E S S I M I L A R T O C E I L I N G G R I D W I R E S O R J A C K C H A I N AT O P P O S I T E C O R N E R S O F A L L R E C E S S E D F I X T U R E S TO P R O V I D E S U P P O R T I N D E P E N D A N T O F T H E C E I L I N G GR I D . R E C E S S E D F I X T U R E S L O C A T E D I N A F I R E -RA T E D CE I L I N G O R W A L L S H A L L B E P R O V I D E D W I T H A 5 -SI D E D RA T E D E N C L O S U R E M A T C H I N G T H A T O F T H E C E I L I N G OR W A L L R A T I N G S . T H E E N C L O S U R E S H A L L M E E T CO D E A N D M A N U F A C T U R E R ' S R E Q U I R E D C L E A R A N C E S . 03 . A L L L I G H T F I X T U R E S M O U N T E D I N S I D E O F A N AR C H I T E C T U R A L C O V E S H A L L E X T E N D T H E F U L L LE N G T H O F T H E C O V E . C O N T R A C T O R T O V E R I F Y T H E EX A C T C O V E L E N G T H , O R D E R Q U A N T I T Y O F F I X T U R E S , AN D P R O V I D E T E L E S C O P I N G E N D U N I T S A S R E Q U I R E D . 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E . 06 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 07 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 08 . A L L E M E R G E N C Y L I G H T I N G W I T H I N D I V I D U A L B A T T E R Y BA C K U P S H A L L B E F E D F R O M T H E S A M E C I R C U I T A S TH E L I G H T I N G I N T H E A R E A W H I C H I T S E R V E S . (N E C 7 0 0 . 1 2 ( F ) ) LI G H T I N G P L A N S - KE Y E D N O T E S CO N T R A C T O R I S T O F U R N I S H L I G H T I N G F I X T U R E S T O C K FO R E A C H F L O O R . S T O C K F I X T U R E S A R E T O B E P L A C E D IN C E I L I N G G R I D A N D L E F T F O R F U T U R E C O N N E C T I O N . CE I L I N G M O U N T E D O C C U P A N C Y S E N S O R . D U A L - TE C H N O L O G Y T Y P E . AR C H I T E C T U R A L W A L L S C O N C E . R E F E R T O S H E E T A3 0 1 F O R E X A C T P L A C E M E N T . 1 2 3 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com LIGHTING PLAN -FOURTH FLOOR E304 NO R T H 1 / 8 " = 1 ' - 0 " E3 0 4 1 LI G H T I N G P L A N - F O U R T H FL O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 DN UP DN OS OS F1 F1 F1 F1 F1 F1 F1 F2F2 F2 F2 F3 F3 TE L / D A T A 11 2 EM EM EM EM EMEXEM EX E M 1 2 3 4 5 6 7 8 9 10 ABCDEF HV 9 HV 1 0 LV 5 LV 5 A EL E C . 11 3 T5 F3 F3 F4 F 4 F4 F4 F4 F4 F4 F4 F4 F4 F4F4 F 4 F 4 F4 F 4 F4 J K L M N O P QRSTUV 1 11 1 2 2 1 LI G H T I N G P L A N S - GE N E R A L N O T E S 01 . R E F E R T O A R C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S FO R E X A C T P L A C E M E N T O F A L L L I G H T I N G F I X T U R E S . VE R I F Y E X A C T C E I L I N G C O N S T R U C T I O N W I T H AR C H I T E C T U R A L R E F L E C T E D C E I L I N G P L A N S A N D PR O V I D E L I G H T I N G F I X T U R E S W I T H A L L N E C E S S A R Y MO U N T I N G H A R D W A R E . 02 . A L L R E C E S S E D F I X T U R E S S H A L L B E P R O V I D E D W I T H A L L RE Q U I R E D S T R U C T U R A L S U P P O R T S A S R E Q U I R E D B Y TH E A H J . T H I S I N C L U D E S A M I N I M U M O F ( 2 ) H A N G E R WI R E S S I M I L A R T O C E I L I N G G R I D W I R E S O R J A C K C H A I N AT O P P O S I T E C O R N E R S O F A L L R E C E S S E D F I X T U R E S TO P R O V I D E S U P P O R T I N D E P E N D A N T O F T H E C E I L I N G GR I D . R E C E S S E D F I X T U R E S L O C A T E D I N A F I R E -RA T E D CE I L I N G O R W A L L S H A L L B E P R O V I D E D W I T H A 5 -SI D E D RA T E D E N C L O S U R E M A T C H I N G T H A T O F T H E C E I L I N G OR W A L L R A T I N G S . T H E E N C L O S U R E S H A L L M E E T CO D E A N D M A N U F A C T U R E R ' S R E Q U I R E D C L E A R A N C E S . 03 . A L L L I G H T F I X T U R E S M O U N T E D I N S I D E O F A N AR C H I T E C T U R A L C O V E S H A L L E X T E N D T H E F U L L LE N G T H O F T H E C O V E . C O N T R A C T O R T O V E R I F Y T H E EX A C T C O V E L E N G T H , O R D E R Q U A N T I T Y O F F I X T U R E S , AN D P R O V I D E T E L E S C O P I N G E N D U N I T S A S R E Q U I R E D . 04 . W H E R E R U N N I N G C I R C U I T S T H R O U G H A N E X P O S E D CE I L I N G , A L L W O R K S H A L L B E P A R A L L E L A N D PE R P I N D I C U L A R T O T H E B U I L D I N G F R A M I N G . A L L CI R C U I T S S H A L L B E I N C O N D U I T U N L E S S O T H E R W I S E AP P R O V E D B Y O W N E R ( S E E S P E C I F I C A T I O N S ) . 05 . A L L P E N E T R A T I O N S T H R O U G H F I R E R A T E D W A L L S S H A L L BE P R O V I D E D W I T H A N A P P R O V E D F I R E S T O P S Y S T E M EQ U A L T O O R G R E A T E R T H A N T H E F I R E R A T I N G O F TH E W A L L T O P R E V E N T T H E S P R E A D O F F I R E . 06 . R A C E W A Y S A R E N O T P E R M I T T E D T O S E R V E A S A N E G C . 07 . A N Y A N D A L L E X T E R I O R W A L L P E N E T R A T I O N S S H A L L B E PR O P E R L Y S E A L E D A N D W A T E R P R O O F E D T O P R E V E N T TH E E N T R A N C E O F A I R O R W A T E R . 08 . A L L E M E R G E N C Y L I G H T I N G W I T H I N D I V I D U A L B A T T E R Y BA C K U P S H A L L B E F E D F R O M T H E S A M E C I R C U I T A S TH E L I G H T I N G I N T H E A R E A W H I C H I T S E R V E S . (N E C 7 0 0 . 1 2 ( F ) ) LI G H T I N G P L A N S - KE Y E D N O T E S CO N T R A C T O R I S T O F U R N I S H L I G H T I N G F I X T U R E S T O C K FO R E A C H F L O O R . S T O C K F I X T U R E S A R E T O B E P L A C E D IN C E I L I N G G R I D A N D L E F T F O R F U T U R E C O N N E C T I O N . CE I L I N G M O U N T E D O C C U P A N C Y S E N S O R . D U A L - TE C H N O L O G Y T Y P E . AR C H I T E C T U R A L W A L L S C O N C E . R E F E R T O S H E E T A3 0 1 F O R E X A C T P L A C E M E N T . 1 2 3 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com LIGHTING PLAN -FIFTH FLOOR E305 NO R T H 1 / 8 " = 1 ' - 0 " E3 0 5 1 LI G H T I N G P L A N - F I F T H F L O O R NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 FINISHED FLOOR EX T E N D R E B A R 6 " M I N . A B O V E FI N I S H E D F L O O R H E I G H T , W I T H I N 6 " H O R I Z O N T A L L Y O F ST R U C T U R A L S T E E L C O L U M N REBAR MUST BE EITHER 20' CONTINUOUS, OR MUST BE CONNECTED USING TIE WIRE TO A MINIMUM OF 20' REBARBOND GEC TO REBAR USING EXOTHERMIC WELDING#4 AWG BARE CU BO N D G E C T O S T R U C T U R A L S T E E L US I N G E X O T H E R M I C W E L D I N G NO T E : R E B A R C O N N E C T I O N S S H A L L B E I N S P E C T E D B Y E L E C T R I C A L C O N T R A C T O R ' S DE S I G N A T E D R E P R E S E N T A T I V E P R I O R T O F O U N D A T I O N C O N C R E T E P O U R . CO N T A C T R J B E C K E R I C H , B R A D D A R N E L L , O R B R I A N B R O V O N T T H R O U G H D E E M ' S MA I N O F F I C E P H O N E N U M B E R F O R A S S I S T A N C E W I T H S C H E D U L I N G I N S P E C T I O N S . CO P P E R G E C #3 / 0 I N 3 / 4 " C . PR O V I D E C O M P R E S S I O N L U G S W / BO L T S , N U T S , A N D L O C K W A S H E R S WA L L B R A C K E T W / I N S U L A T O R S FA S T E N E D T O S T R U C T U R A L E L E M E N T 1/ 4 " X 4 " X 2 4 " C O P P E R B U S , W/ P R E D R I L L E D H O L E S BO N D A L L M E T A L R A C E W A Y S AT E A C H T E R M I N A T I O N P O I N T W/ A J U M P E R O F E Q U A L S I Z E TO T H E G E C I N S T A L L E D I N TH E R A C E W A Y NE C 2 5 0 . 6 4 ( E ) CO N C R E T E EN C A S E D EL E C T R O D E NE C 2 5 0 . 5 2 ( A ) ( 3 ) ST R U C T U R A L ST E E L NE C 2 5 0 . 5 2 ( A ) ( 2 ) UN D E R G R O U N D ME T A L W A T E R PI P E ( > 1 0 ' ) , W I T H I N 5 ' OF E N T R A N C E T O BU I L D I N G & O N B O T H SI D E S O F A N Y I N T E R I O R SE R V I C E M E T E R S O R DI E L E C T R I C J U N C T I O N S NE C 2 5 0 . 5 2 ( A ) ( 1 ) AL L O T H E R G R O U N D I N G E L E C T R O D E S P R E S E N T , CO N S I S T I N G O F A M I N I M U M O F ( 2 ) 1 0 ' X 3 / 4 " G R O U N D RO D S , L O C A T E D 6 ' A P A R T . N E C 2 5 0 . 5 2 ( A ) ( 4 ) , ( 5 ) , ( 6 ) , ( 7 ) , ( 8 ) CO P P E R G E C #3 / 0 I N 3 / 4 " C . MA I N S E R V I C E E N C L O S U R E NE U T R A L B U S GR O U N D I N G BU S EQ U I P M E N T B O N D I N G J U M P E R SI Z E D P E R N E C 2 5 0 . 1 0 2 ( D ) MA I N B O N D I N G J U M P E R , W H I C H I S A RE M O V A B L E N E U T R A L D I S C O N N E C T I N G L I N K NO T E S : 1. E N S U R E A L L G R O U N D I N G & B O N D I N G C O M P L I E S W I T H N E C A R T . 2 5 0 . 2. A L L G E C , E G C , A N D B O N D I N G J U M P E R S S H A L L B E C O N N E C T E D B Y LI S T E D M E A N S . E X O T H E R M I C W E L D I N G A N D I R R E V E R S I B L E CO M P R E S S I O N C O N N E C T O R S A R E P R E F E R R E D M E T H O D S . 3. A L L G R O U N D I N G & B O N D I N G C O N D U C T O R S S H A L L B E C O P P E R . 4. B O N D A L L G R O U N D I N G E L E C T R O D E S T O T H E M A I N G R O U N D I N G B U S . 5. L O C A T E T H E M A I N G R O U N D I N G B U S I N A N A C C E S S I B L E L O C A T I O N , NE A R T H E M A I N S E R V I C E D I S C O N N E C T I N G M E A N S , F O R U S E A S A N IN T E R S Y S T E M B O N D I N G T E R M I N A T I O N . N E C 2 5 0 . 9 4 6. W H E R E A D E D I C A T E D I . T . E Q U I P M E N T B O N D I N G B U S I S R E Q U I R E D , RO U T E T H E B O N D I N G C O N D U C T O R B A C K T O T H E M A I N GR O U N D I N G B U S . H3 X0 ( W H I T E ) GR O U N D I N G E L E C T R O D E C O N D U C T O R ( G E C ) , SI Z E D P E R N E C 2 5 0 . 6 6 . I F U S I N G M E T A L CO N D U I T , TH E C O N D U C T O R S H A L L B E B A R E C O P P E R A N D SH A L L B E B O N D E D T O C O N D U I T U S I N G B O N D I N G BU S H I N G S O R O T H E R A P P R O P R I A T E F I T T I N G S A T MA I N B O N D I N G J U M P E R , SI Z E D P E R N E C 2 5 0 . 2 8 ( D ) GR I N D P A I N T O F F BE F O R E BO L T I N G L U G T O CO N D U I T E N T R Y A R E A . R E F E R T O MA N U F A C T U R E R I N S T A L L A T I O N IN S T R U C T I O N S . GE C C O N D U I T . P V C I S P R E F E R R E D , BU T AD J U S T A B L E P R I M A R Y T R A N S F O R M E R T A P S . R E F E R T O TR A N S F O R M E R C O V E R O R M A N U F A C T U R E R IN S T R U C T I O N S TO D E T E R M I N E T H E P R O P E R T A P T O U S E , B A S E D O N T H E AV A I L A B L E V O L T A G E F E E D I N G T H E P R I M A R Y S I D E O F T H E X1 H1 X2 H2 (O R A N G E ) X3 CO N D U I T E N T R Y A R E A . R E F E R T O MA N U F A C T U R E R I N S T A L L A T I O N IN S T R U C T I O N S . AC T U A L L O C A T I O N O F C O N N E C T I O N S M A Y V A R Y IN T H E A C T U A L T R A N S F O R M E R T H A T I S OR D E R E D . HO W E V E R , T H E L E T T E R I N G O F T H E AL L C O N D U I T S W I T H C O N D U C T O R S # 4 AW G A N D L A R G E R S H A L L H A V E I N S U L A T I N G BU S H I N G S O N C O N N E C T O R S . S E C O N D A R Y CO N D U I T S S H A L L H A V E B O N D I N G B U S H I N G S IN S T A L L E D . EQ U I P M E N T B O N D I N G J U M P E R F O R A L L SE C O N D A R Y C O N D U I T S S H A L L B E SI Z E D - T H E S E C O N D A R Y C O N D U C T O R S S H A L L NO T E V E R E X C E E D 25 ' I N L E N G T H B E F O R E T E R M I N A T I N G I N A N O V E R C U R R E N T PR O T E C T I O N D E V I C E , P E R N E C 2 4 0 . 2 1 ( C ) ( 6 ) . T H E S E CO N D U C T O R S SH A L L B E S I Z E D T O T H E FU L L A M P A C I T Y O F T H E O V E R C U R R E N T - S E C O N D A R Y C O N D U C T O R S S H A L L A L W A Y S B E T E R M I N A T E D I N A N OV E R C U R R E N T P R O T E C T I O N D E V I C E , P E R N E C 2 4 0 . 2 1 ( C ) ( 1 ) . T H E SO L E E X C E P T I O N S A R E S Y S T E M S W I T H A S I N G L E P H A S E , 2 W I R E S E C O N D A R Y AN D S Y S T E M S W I T H 3 P H A S E , 3 W I R E , D E L T A -DE L T A C O N N E C T E D TR A N S F O R M E R . 10 0 0 12 0 2 A 12 0 0 A 27 7 5 A 30 0 0 A #3 / 0 (9 ) # 6 0 0 / (1 2 ) # 5 0 0 (3 ) or (4 ) # 3 / 0 (2 8 ) # 7 0 0 / (3 2 ) # 7 0 0 (7 ) # 2 / 0 or (8 ) # 1 / 0 75 0 90 2 A 10 0 0 A 20 8 2 A 25 0 0 A #3 / 0 (9 ) # 4 0 0 / (9 ) # 6 0 0 (3 ) # 2 / 0 (2 4 ) # 6 0 0 / (2 8 ) # 7 0 0 (6 ) # 1 / 0 or (7 ) # 1 / 0 50 0 60 1 A 80 0 A 13 8 7 A 16 0 0 A #3 / 0 (6 ) # 5 0 0 / (9 ) # 3 5 0 (2 ) or (3 ) # 1 / 0 (1 6 ) # 6 0 0 / (2 0 ) # 6 0 0 (4 ) # 1 / 0 or (5 ) # 1 / 0 30 0 36 0 A 45 0 A 83 2 A 10 0 0 A #3 / 0 (3 ) # 6 0 0 / (6 ) # 2 5 0 (1 ) or (2 ) # 2 (1 2 ) # 4 0 0 / (1 2 ) # 6 0 0 (3 ) # 1 / 0 22 5 27 0 A 35 0 A 62 5 A 80 0 A #3 / 0 (3 ) # 4 0 0 / (3 ) # 6 0 0 (1 ) # 3 (8 ) # 6 0 0 / (1 2 ) # 4 0 0 (2 ) # 1 / 0 or (3 ) # 2 15 0 18 0 A 22 5 A 41 6 A 60 0 A #2 / 0 (3 ) # 3 / 0 / (3 ) # 2 5 0 (1 ) # 4 (8 ) # 3 5 0 / (8 ) # 5 0 0 (2 ) # 2 11 2 . 5 13 5 A 17 5 A 31 2 A 40 0 A #1 / 0 (3 ) # 2 / 0 / (3 ) # 3 / 0 (1 ) # 6 (4 ) # 6 0 0 / (8 ) # 2 5 0 (1 ) # 3 or (2 ) # 4 75 90 A 10 0 A 20 8 A 20 0 A #4 (3 ) # 2 / (3 ) # 1 (1 ) # 8 (4 ) # 3 / 0 / (4 ) # 2 5 0 (1 ) # 4 45 54 A 70 A 12 5 A 15 0 A #6 (3 ) # 4 / NO T US E D (1 ) # 8 (4 ) # 1 / 0 / (4 ) # 3 / 0 (1 ) # 6 30 36 A 45 A 83 A 10 0 A #6 (3 ) # 8 / NO T US E D (1 ) # 1 0 (4 ) # 1 / (4 ) # 1 / 0 (1 ) # 6 or (1 ) # 8 TR A N S F O R M E R W I R I N G C H A R T - 4 8 0 V , 3 P H , 3 W D E L T A P R I M A R Y / 1 2 0 / 2 0 8 V , 3 P H , 4 W W Y E S E C O N D A R Y 18 A 25 A 42 A 60 A #8 (3 ) # 1 0 / NO T US E D (1 ) # 1 0 (4 ) # 4 / (4 ) # 3 (1 ) # 8 RA T E D kV A RA T E D PR I M A R Y AM P S RA T E D SE C O N D A R Y AM P S SE C O N D A R Y OV E R C U R R E N T DE V I C E PR I M A R Y CO N D U C T O R S ‐ H1 , H2 , H3 [C u / A l ] PR I M A R Y EG C [C u On l y ] SE C O N D A R Y CO N D U C T O R S ‐ X0 , X1 , X2 , X3 [C u / A l ] SE C O N D A R Y SU P P L Y SI D E BO N D I N G JU M P E R [C u On l y ] PR I M A R Y OV E R C U R R E N T DE V I C E GE C [C u ON L Y ] 15 - T H E S E C O N D A R Y C O N D U C T O R S S H A L L H A V E A S U P P L Y -SI D E B O N D I N G JU M P E R I N E A C H R A C E W A Y , W H E R E T H E M A I N ( S Y S T E M ) B O N D I N G J U M P E R IS L O C A T E D A T T H E S O U R C E O F T H E S E P E R A T E L Y D E R I V E D S Y S T E M , A N D TH E F I R S T M E A N S O F D I S C O N N E C T I S I N A S E P E R A T E E N C L O S U R E , P E R N E C 25 0 . 3 0 ( A ) ( 2 ) ( a ) . P E R N E C 2 5 0 . 1 0 2 ( C ) ( 1 ) & N E C 2 5 0 . 1 0 2 ( C ) ( 2 ) , T H I S CO N D U C T O R S H A L L B E B A S E D O N T H E S I Z E O F T H E U N G R O U N D E D CO N D U C T O R S I N EA C H R A C E W A Y O R C A B L E , N O T T H E S U M O F A L L UN G R O U N D E D #7 0 0 #5 0 0 #3 0 0 #3 / 0 #3 / 0 #2 / 0 #1 / 0 #4#6#6#8MB J [C u ON L Y ] ELECTRONIC P1 P2 P3 P4 P5 N.O.AUXN.C.AU COIL A1 A2LNLLNLLNLLNLLNLNLLNLLNLLNLLNTO TO LC -2B GE CONTACTOR # CR463M90PNA10A0MDP2-MDP2 -MDP2 -MDP2 -MDP2 - TO R K T I M E C L O C K # D G U M 1 0 0 A W / TO R K P H O T O C E L L E P C -A OR E Q U A L S U B S T I T U T E S TI M E R SU P P L Y TO E P C - SP D SP D TB 3 BL BK R C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com GROUNDING &CONNECTION DETAILS E501 E5 0 1 CO N C R E T E E N C A S E D E L E C T R O D E B O N D I N G D E T A I L 2 E5 0 1 GR O U N D I N G E L E C T R O D E S Y S T E M D E T A I L 1 E5 0 1 TR A N S F O R M E R C O N N E C T I O N D E T A I L S 3 E5 0 1 SI T E L I G H T I N G C O N T A C T O R D E T A I L 4 NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 FI R S T F L O O R SE C O N D F L O O R TH I R D F L O O R FO U R T H F L O O R FI F T H F L O O R RO O F UT I L I T Y TR A N S F O R M E R MD P ' A ' 30 0 0 A M C B 48 0 / 2 7 7 V 3P H - 4 W 65 k A I C 'H V -1' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'H V -2' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'L V -1' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'L V -1A ' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'T -1' 75 k V A 48 0 x 20 8 / 1 2 0 'H V -3' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'H V -4' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'L V -2' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'L V -2A ' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'T -2' 75 k V A 48 0 x 20 8 / 1 2 0 'H V -5' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'H V -6' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'L V -3' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'L V -3A ' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'T -3' 75 k V A 48 0 x 20 8 / 1 2 0 'H V -7' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'H V -8' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'L V -4' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'L V -4A ' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'T -4' 75 k V A 48 0 x 20 8 / 1 2 0 'H V -9' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'H V -10 ' 40 0 A M L 48 0 / 2 7 7 V 42 C I R . 'L V -5' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'L V -5A ' 20 0 A M C B 20 8 / 1 2 0 V 42 C I R . 'T -1' 75 k V A 48 0 x 20 8 / 1 2 0 MD P ' B ' 20 0 0 A M C B 48 0 / 2 7 7 V 3P H - 4 W 65 k A I C RT U -1 RT U -2 RT U -3 F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L TF 0 2 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L SF 2 0 0 0 N - A L SF 3 0 0 0 N - A L F0 1 0 0 G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L F0 4 0 0 N G - A L SF 3 0 0 0 N - A L SF 2 0 0 0 N - A L TF 0 2 0 0 N G - A L TF 0 2 0 0 N G - A L TF 0 2 0 0 N G - A L TF 0 2 0 0 N G - A L 1 111 F0 3 5 0 G - A L F0 3 5 0 G - A L F0 2 5 0 G - A L 2 2 2 SINGLE LINE DIAGRAM -GENERAL NOTES 01. DESIGNATION DEFINITIONS:"F" PREFIX INDICATES "FEEDER""TF" PREFIX INDICATES "TRANSFORMER SECONDARY FEEDER""SF" PREFIX INDICATES "SERVICE ENTRANCE FEEDER""MF" PREFIX INDICATES "MOTOR FEEDER""0000" INDICATES "OVERCURRENT PROTECTION SETTING""G" SUFFIX INDICATES "WITH EGC""NG" SUFFIX INDICATES "WITH NEUTRAL AND EGC""-AL" SUFFIX INDICATES "ALUMINUM PHASE AND NEUTRAL CONDUCTORS""-CU" SUFFIX INDICATES "COPPER PHASE AND NEUTRAL CONDUCTORS""/VD" SUFFIX INDICATES "ADJUSTED FOR VOLTAGE DROP""/SP" SUFFIX INDICATES "SINGLE PHASE"02. FEEDER SCHEDULE IS BASED ON THE FOLLOWING: ELECTRICAL METALLIC TUBING, FLEXIBLE METAL CONDUIT, RIGID METAL CONDUIT, OR SCHEDULE 40 PVC CONDUIT ONLY.03. NUMBER IN PARENTHESIS INDICATES QUANTITY OF CONDUCTORS PER PARALLEL RUN. FOR CONDUITS, THE NUMBER IN PARENTHESIS INDICATES THE TOTAL QUANTITY OF PARALLEL RUNS. EACH PARALLEL RUN SHALL INCLUDE ALL PHASE CONDUCTORS, NEUTRAL, AND GROUND CONDUCTORS AS APPLICABLE. COMPLY WITH NEC 310.4.04. GROUND CONDUCTOR ON SEPARATELY DERIVED SYSTEMS SHALL BE SIZED BASED ON TABLE 250.66.05. IT SHALL BE THE EC'S RESPONSIBILITY TO COORDINATE THE AIC RATINGS OF ALL EQUIPMENT AND VERIFY THAT IT IS CORRECT PRIOR TO THE PURCHASE AND INSTALLATION OF SAID EQUIPMENT.06. EMERGENCY SYSTEMS SHALL BE ISOLATED AND MARKED AS REQUIRED IN NEC 700.7(A) AND NEC 700.10. SINGLE LINE DIAGRAM -KEYED NOTES TYPICAL FLOOR PENETRATION. PROVIDE FIRESTOPPING AS REQUIRED.FURNISHED INTEGRAL TO UNIT.1 2 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com SINGLE LINE DIAGRAM E601 E6 0 1 DI S T R I B U T I O N D I A G R A M 1 FEEDER SCHEDULE FEEDERPHASE CONDUCTORSNEUTRAL CONDUCTORSEQUIP.GROUNDING CONDUCTORS CONDUITS F0100G ‐AL (3)# 1/0 AL N/A #6 CU 1 ‐1/4" EMT TF0200NG ‐AL (3) 250 kCMIL AL250 kCMIL AL #4 CU 2 ‐1/2" EMT F0250G ‐AL (3) 300 kCMIL ‐ALN/A #2 AL 2 ‐1/2" EMT F0350G ‐AL (3) 600 kCMIL ‐ALN/A #1 AL 3" EMT F0400NG ‐AL (3) 750 kCMIL AL750 kCMIL AL #1 AL 4" EMT SF2000N ‐AL (3) 750 kCMIL AL x (8)750 kCMIL AL N/A (6) 4" PVC SF3000N ‐AL (3) 750 kCMIL AL x (8)750 kCMIL AL x (8)N/A (8) 4" PVC NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com PANEL SCHEDULES E602 No t e s : To t a l E s t . D e m a n d : 11 3 A To t a l C o n n . : 91 A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l E s t . D e m a n d : 93 . 8 k V A Re c e p t a c l e 3 2 4 0 V A 1 0 0 . 0 0 % 3 2 4 0 V A To t a l C o n n . L o a d : 76 . 0 k V A He a t i n g 7 1 2 2 0 V A 1 2 5 . 0 0 % 8 9 0 2 5 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 98 A 8 8 A 8 8 A To t a l L o a d : 27 . 2 2 4 . 5 2 4 . 3 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 3. 2 / 0 . 0 1 2 0 A S p a r e 3 0 27 3 . 4 / 0 . 0 1 2 0 A S p a r e 2 8 25 Tr a n s f o r m e r T 1 f o r P a n e l LV 1 & L V 1 A 10 0 A 3 6. 1 / 0 . 0 1 2 0 A S p a r e 2 6 23 3. 3 / 3 . 3 2 4 21 3 . 3 / 3 . 3 2 2 19 Wa l l H e a t e r - V e s t i b u l e 1 0 8 2 0 A 3 3. 3 / 3 . 3 3 2 0 A W a l l H e a t e r - V e s t i b u l e 1 0 1 20 17 3. 3 / 3 . 3 1 8 15 3 . 3 / 3 . 3 1 6 13 Wa l l H e a t e r - S t a i r w e l l # 2 2 0 A 3 3. 3 / 3 . 3 3 2 0 A W a l l H e a t e r - V e s t i b u l e 1 0 9 14 11 3. 7 / 0 . 7 1 2 9 3 . 7 / 0 . 7 1 0 7 VA V - 1 - 3 2 0 A 3 3. 7 / 0 . 7 3 2 0 A V A V - 1 - 4 8 5 1. 9 / 1 . 5 6 3 1 . 9 / 1 . 5 4 1 VA V - 1 - 1 2 0 A 3 1. 9 / 1 . 5 3 2 0 A V A V - 1 - 2 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 1 0 4 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 1 No t e s : To t a l E s t . D e m a n d : 0 A To t a l C o n n . : 0 A To t a l E s t . D e m a n d : 0. 0 k V A To t a l C o n n . L o a d : 0. 0 k V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 0 A 0 A 0 A To t a l L o a d : 0. 0 0 . 0 0 . 0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 1 0 4 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 2 No t e s : To t a l E s t . D e m a n d : 40 A To t a l C o n n . : 33 A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l E s t . D e m a n d : 33 . 6 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A To t a l C o n n . L o a d : 27 . 6 k V A He a t i n g 2 4 1 0 0 V A 1 2 5 . 0 0 % 3 0 1 2 5 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 37 A 3 2 A 3 1 A To t a l L o a d : 10 . 1 8 . 9 8 . 6 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 0. 5 / 0 . 0 1 2 0 A S p a r e 1 8 15 0 . 9 / 0 . 0 1 2 0 A S p a r e 1 6 13 Tr a n s f o r m e r T 2 f o r P a n e l LV 2 & L V 2 A 20 A 3 2. 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 2. 5 / 3 . 3 1 2 9 2 . 5 / 3 . 3 1 0 7 VA V - 2 - 3 2 0 A 3 2. 5 / 3 . 3 3 2 0 A W a l l H e a t e r - S t a i r # 2 8 5 1. 5 / 0 . 7 6 3 1 . 5 / 0 . 7 4 1 VA V - 2 - 1 2 0 A 3 1. 5 / 0 . 7 3 2 0 A V A V - 2 - 2 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 1 0 5 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 3 No t e s : Total Est. Demand:0 ATotal Conn.:0 ATotal Est. Demand:0.0 kVATotal Conn. Load:0.0 kVA Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : Total Amps:0 A0 A0 ATotal Load:0.0 0.0 0.0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (kVA)B Φ (kVA)C Φ (kVA)Poles Trip ACC Circuit Description CKT No t e s : Enclosure:Type 1 MCB Rating:Mounting:Surface Wires:4 Bus Rating:400 ASupply From:MDP-A Phases:3 Mains Type:MLOLocation:ELEC. 105 Volts:480/277 Wye A.I.C. Rating:22,000 Pa n e l b o a r d : H V 4 No t e s : To t a l E s t . D e m a n d : 35 A To t a l C o n n . : 28 A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l E s t . D e m a n d : 28 . 7 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A To t a l C o n n . L o a d : 23 . 7 k V A He a t i n g 2 0 2 0 0 V A 1 2 5 . 0 0 % 2 5 2 5 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 32 A 2 8 A 2 6 A To t a l L o a d : 8. 8 7 . 6 7 . 3 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 0. 5 / 0 . 0 1 2 0 A S p a r e 1 8 15 0 . 9 / 0 . 0 1 2 0 A S p a r e 1 6 13 Tr a n s f o r m e r T 3 f o r P a n e l LV 3 & L V 3 A 10 0 A 3 2. 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 0. 6 / 3 . 3 1 2 9 0 . 6 / 3 . 3 1 0 7 VA V - 3 - 3 2 0 A 3 0. 6 / 3 . 3 3 2 0 A W a l l H e a t e r - S t a i r # 2 8 5 1. 3 / 1 . 5 6 3 1 . 3 / 1 . 5 4 1 VA V - 3 - 1 2 0 A 3 1. 3 / 1 . 5 3 2 0 A V A V - 3 - 2 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 3 0 2 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 5 No t e s : To t a l E s t . D e m a n d : 0 A To t a l C o n n . : 0 A To t a l E s t . D e m a n d : 0. 0 k V A To t a l C o n n . L o a d : 0. 0 k V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 0 A 0 A 0 A To t a l L o a d : 0. 0 0 . 0 0 . 0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 3 0 2 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 6 No t e s : To t a l E s t . D e m a n d : 35 A To t a l C o n n . : 28 A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l E s t . D e m a n d : 28 . 7 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A To t a l C o n n . L o a d : 23 . 7 k V A He a t i n g 2 0 2 0 0 V A 1 2 5 . 0 0 % 2 5 2 5 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 32 A 2 8 A 2 6 A To t a l L o a d : 8. 8 7 . 6 7 . 3 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 0. 5 / 0 . 0 1 2 0 A S p a r e 1 8 15 0 . 9 / 0 . 0 1 2 0 A S p a r e 1 6 13 Tr a n s f o r m e r T 4 f o r P a n e l LV 4 & L V 4 A 10 0 A 3 2. 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 0. 6 / 3 . 3 1 2 9 0 . 6 / 3 . 3 1 0 7 VA V - 4 - 3 2 0 A 3 0. 6 / 3 . 3 3 2 0 A W a l l H e a t e r - S t a i r # 2 8 5 1. 3 / 1 . 5 6 3 1 . 3 / 1 . 5 4 1 VA V - 4 - 1 2 0 A 3 1. 3 / 1 . 5 3 2 0 A V A V - 4 - 2 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 1 1 4 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 7 No t e s : Total Est. Demand:0 ATotal Conn.:0 ATotal Est. Demand:0.0 kVATotal Conn. Load:0.0 kVA Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : Total Amps:0 A0 A0 ATotal Load:0.0 0.0 0.0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (kVA)B Φ (kVA)C Φ (kVA)Poles Trip ACC Circuit Description CKT No t e s : Enclosure:Type 1 MCB Rating:Mounting:Surface Wires:4 Bus Rating:400 ASupply From:MDP-A Phases:3 Mains Type:MLOLocation:ELEC. 114 Volts:480/277 Wye A.I.C. Rating:22,000 Pa n e l b o a r d : H V 8 NO. DESCRIPTION DATE C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com PANEL SCHEDULES E603 No t e s : To t a l E s t . D e m a n d : 35 A To t a l C o n n . : 28 A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l E s t . D e m a n d : 28 . 7 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A To t a l C o n n . L o a d : 23 . 7 k V A He a t i n g 2 0 2 0 0 V A 1 2 5 . 0 0 % 2 5 2 5 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 32 A 2 8 A 2 6 A To t a l L o a d : 8. 8 7 . 6 7 . 3 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 0. 5 / 0 . 0 1 2 0 A S p a r e 1 8 15 0 . 9 / 0 . 0 1 2 0 A S p a r e 1 6 13 Tr a n s f o r m e r T 5 f o r P a n e l LV 5 & L V 5 A 10 0 A 3 2. 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 0. 6 / 3 . 3 1 2 9 0 . 6 / 3 . 3 1 0 7 VA V - 5 - 3 2 0 A 3 0. 6 / 3 . 3 3 2 0 A W a l l H e a t e r - S t a i r # 2 8 5 1. 3 / 1 . 5 6 3 1 . 3 / 1 . 5 4 1 VA V - 5 - 1 2 0 A 3 1. 3 / 1 . 5 3 2 0 A V A V - 5 - 2 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 1 1 3 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : Pa n e l b o a r d : H V 9 No t e s : To t a l E s t . D e m a n d : 2 A To t a l C o n n . : 2 A To t a l E s t . D e m a n d : 2. 0 k V A Mo t o r 1 6 3 2 V A 1 2 5 . 0 0 % 2 0 4 0 V A To t a l C o n n . L o a d : 1. 6 k V A HV A C 0 V A 0 . 0 0 % 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 2 A 2 A 2 A To t a l L o a d : 0. 5 0 . 5 0 . 5 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 0. 5 / 0 . 0 1 2 0 A S p a r e 6 3 0 . 5 / 0 . 0 1 2 0 A S p a r e 4 1 Ex h a u s t F a n E F - 1 o n R o o f 2 0 A 3 0. 5 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 40 0 A Su p p l y F r o m : MD P - A Ph a s e s : 3 Ma i n s T y p e : ML O Lo c a t i o n : EL E C . 1 1 3 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 22 , 0 0 0 Pa n e l b o a r d : H V 1 0 No t e s : P r o v i d e F e e d - T h r u L u g s To t a l E s t . D e m a n d : 41 A To t a l C o n n . : 35 A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l E s t . D e m a n d : 14 . 7 k V A Re c e p t a c l e 3 2 4 0 V A 1 0 0 . 0 0 % 3 2 4 0 V A To t a l C o n n . L o a d : 12 . 7 k V A He a t i n g 8 0 0 0 V A 1 2 5 . 0 0 % 1 0 0 0 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 51 A 2 8 A 2 7 A To t a l L o a d : 6. 1 3 . 4 3 . 2 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 3 2 0 0 A L u g s L V 1 A - F e e d T h r u 38 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 1 . 7 / 1 . 5 1 2 0 A W a t e r H e a t e r 1 4 11 1. 7 / 1 . 0 1 2 9 Un i t H e a t e r - W a t e r R o o m 2 0 A 3 1. 7 / 1 . 0 1 0 7 R e c e p t a c l e 2 0 A 1 0 . 5 / 1 . 0 3 2 0 A Un i t H e a t e r - S w i t c h g e a r Ro o m 8 5 R e c e p t a c l e 2 0 A 1 0 . 4 / 0 . 2 1 2 0 A R e c e p t a c l e 6 3 R e c e p t a c l e . . . 2 0 A 1 0 . 4 / 0 . 4 1 2 0 A R e c e p t a c l e . . . 4 1 R e c e p t a c l e 2 0 A 1 1 . 1 / 0 . 4 1 2 0 A R e c e p t a c l e E L E C . 1 0 4 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : T1 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 1 0 4 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 1 No t e s : To t a l E s t . D e m a n d : 0 A To t a l C o n n . : 0 A To t a l E s t . D e m a n d : 0. 0 k V A To t a l C o n n . L o a d : 0. 0 k V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 0 A 0 A 0 A To t a l L o a d : 0. 0 0 . 0 0 . 0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : LV 1 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 1 0 4 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 1 A No t e s : P r o v i d e F e e d - T h r u L u g s To t a l E s t . D e m a n d : 10 A To t a l C o n n . : 10 A To t a l E s t . D e m a n d : 3. 5 k V A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l C o n n . L o a d : 3. 5 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 17 A 8 A 5 A To t a l L o a d : 2. 0 0 . 9 0 . 5 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 3 2 0 0 A L u g s L V 2 A F e e d T h r u 38 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 W a t e r H e a t e r 2 0 A 1 1 . 5 / 0 . 0 1 2 0 A S p a r e 8 5 R e c e p t a c l e 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e 6 3 R e c e p t a c l e T E L / D A T A 1 0 6 2 0 A 1 0 . 4 / 0 . 5 1 2 0 A R e c e p t a c l e 4 1 R e c e p t a c l e E L E C . 1 0 5 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e T E L / D A T A 1 0 6 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : T2 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 1 0 5 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 2 No t e s : Total Est. Demand:0 ATotal Conn.:0 ATotal Est. Demand:0.0 kVATotal Conn. Load:0.0 kVA Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : Total Amps:0 A0 A0 ATotal Load:0.0 0.0 0.0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (kVA)B Φ (kVA)C Φ (kVA)Poles Trip ACC Circuit Description CKT No t e s : Enclosure:Type 1 MCB Rating:200 AMounting:Surface Wires:4 Bus Rating:200 ASupply From:LV2 Phases:3 Mains Type:MCBLocation:ELEC. 105 Volts:120/208 Wye A.I.C. Rating:10,000Panelboard: LV2A No t e s : Es t . T r u e P o w e r : Es t . P o w e r F a c t o r : Ap p l i a n c e 7 5 0 0 V A 1 0 0 . 0 0 % 7 5 0 0 V A Es t . D e m a n d C u r r e n t : 25 9 A Re c e p t a c l e 1 1 1 6 0 V A 9 4 . 8 0 % 1 0 5 8 0 V A Co n n e c t e d C u r r e n t : 21 2 A Mo t o r 1 6 3 2 V A 1 2 5 . 0 0 % 2 0 4 0 V A Es t . D e m a n d L o a d : 21 5 . 0 k V A He a t i n g 1 5 5 9 2 0 V A 1 2 5 . 0 0 % 1 9 4 9 0 0 V A Co n n e c t e d L o a d : 17 6 . 2 k V A HV A C 0 V A 0 . 0 0 % 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Le g e n d : To t a l A m p s : 21 2 A To t a l C o n n . L o a d : 17 6 . 2 2 0 S P A C E - - - - - - 0 . 0 - - 1 9 S P A C E - - - - - - 0 . 0 - - 1 8 S P A C E - - - - - - 0 . 0 - - 1 7 S P A C E - - - - - - 0 . 0 - - 1 6 S P A C E - - - - - - 0 . 0 - - 1 5 S P A C E - - - - - - 0 . 0 - - 1 4 S P A C E - - - - - - 0 . 0 - - 1 3 S P A C E - - - - - - 0 . 0 - - 1 2 S P A C E - - - - - - 0 . 0 - - 1 1 S P A C E - - - - - - 0 . 0 - - 10 H V 1 0 3 4 0 0 A 4 0 0 A 1 . 6 9 H V 9 3 4 0 0 A 4 0 0 A 2 3 . 7 8 H V 8 3 4 0 0 A 4 0 0 A 0 . 0 7 H V 7 3 4 0 0 A 4 0 0 A 2 3 . 7 6 H V 6 3 4 0 0 A 4 0 0 A 0 . 0 5 H V 5 3 4 0 0 A 4 0 0 A 2 3 . 7 4 H V 4 3 4 0 0 A 4 0 0 A 0 . 0 3 H V 3 3 4 0 0 A 4 0 0 A 2 7 . 6 2 H V 2 3 4 0 0 A 4 0 0 A 0 . 0 1 H V 1 3 4 0 0 A 4 0 0 A 7 6 . 0 CK T C i r c u i t D e s c r i p t i o n # o f Po l e s Fr a m e Si z e Tr i p Ra t i n g Lo a d (k V A ) Re m a r k s No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 30 0 0 A Mo u n t i n g : SU R F A C E - F L O O R Wi r e s : 4 Bu s R a t i n g : 30 0 0 A Su p p l y F r o m : UT I L I T Y A Ph a s e s : 3 Ma i n s T y p e : MC B - L S I G Lo c a t i o n : EL E C . 1 0 4 Vo l t s : 48 0 / 2 7 7 W y e A. I . C . R a t i n g : 65 , 0 0 0 Sw i t c h b o a r d : M D P - A No t e s : Est. True Power:Est. Power Factor:Est. Demand Current:865 AConnected Current:865 AEst. Demand Load:718.8 kVAConnected Load:718.8 kVA Co o l i n g 7 1 8 8 1 5 V A 1 0 0 . 0 0 % 7 1 8 8 1 5 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Le g e n d : Total Amps:865 ATotal Conn. Load:718.82 0 S P A C E - -- -- - 0 . 0 - -1 9 S P A C E - -- -- - 0 . 0 - -1 8 S P A C E - -- -- - 0 . 0 - -1 7 S P A C E - -- -- - 0 . 0 - -1 6 S P A C E - -- -- - 0 . 0 - -1 5 S P A C E - -- -- - 0 . 0 - -1 4 S P A C E - -- -- - 0 . 0 - -1 3 S P A C E - -- -- - 0 . 0 - -1 2 S P A C E - -- -- - 0 . 0 - -1 1 S P A C E - -- -- - 0 . 0 - -1 0 S P A C E - -- -- - 0 . 0 - - 9 S P A C E - - - - - - 0 . 0 - - 8 S P A C E - - - - - - 0 . 0 - - 7 S P A C E - - - - - - 0 . 0 - - 6 S P A C E - - - - - - 0 . 0 - - 5 S P A C E - - - - - - 0 . 0 - - 4 S P A C E - - - - - - 0 . 0 - - 3 R T U - 3 3 4 0 0 A 2 5 0 A 1 7 7 . 0 2 R T U - 2 3 4 0 0 A 3 5 0 A 2 7 0 . 9 1 R T U - 1 3 4 0 0 A 3 5 0 A 2 7 0 . 9 CK T C i r c u i t D e s c r i p t i o n # of PolesFrame SizeTrip RatingLoad (kVA)Remarks No t e s : Enclosure: MCB Rating:2000 AMounting: Wires:4 Bus Rating:2000 ASupply From:UTILITY B Phases:3 Mains Type:MCB - LSIGLocation:SWITCHGEAR 1 Volts:480/277 Wye A.I.C. Rating:65,000 Sw i t c h b o a r d : M D P - B NO. DESCRIPTION DATE C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com PANEL SCHEDULES E604 No t e s : To t a l E s t . D e m a n d : 10 A To t a l C o n n . : 10 A To t a l E s t . D e m a n d : 3. 5 k V A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l C o n n . L o a d : 3. 5 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 17 A 8 A 5 A To t a l L o a d : 2. 0 0 . 9 0 . 5 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 3 2 0 0 A L u g s L V 3 A F e e d T h r u 38 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 W a t e r H e a t e r 2 0 A 1 1 . 5 / 0 . 0 1 2 0 A S p a r e 8 5 R e c e p t a c l e 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e 6 3 R e c e p t a c l e T e l / D a t a 1 0 8 2 0 A 1 0 . 4 / 0 . 5 1 2 0 A R e c e p t a c l e 4 1 R e c e p t a c l e E L E C . 3 0 2 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e T e l / D a t a 1 0 8 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : T3 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 3 0 2 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 3 No t e s : To t a l E s t . D e m a n d : 0 A To t a l C o n n . : 0 A To t a l E s t . D e m a n d : 0. 0 k V A To t a l C o n n . L o a d : 0. 0 k V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 0 A 0 A 0 A To t a l L o a d : 0. 0 0 . 0 0 . 0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : LV 3 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 3 0 2 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 3 A No t e s : To t a l E s t . D e m a n d : 10 A To t a l C o n n . : 10 A To t a l E s t . D e m a n d : 3. 5 k V A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l C o n n . L o a d : 3. 5 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 17 A 8 A 5 A To t a l L o a d : 2. 0 0 . 9 0 . 5 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 3 2 0 0 A L u g s L V 4 A F e e d T h r u 38 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 W a t e r H e a t e r 2 0 A 1 1 . 5 / 0 . 0 1 2 0 A S p a r e 8 5 R e c e p t a c l e 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e 6 3 R e c e p t a c l e 2 0 A 1 0 . 4 / 0 . 5 1 2 0 A R e c e p t a c l e 4 1 R e c e p t a c l e E L E C . 1 1 4 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : T4 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 1 1 4 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 4 No t e s : Total Est. Demand:0 ATotal Conn.:0 ATotal Est. Demand:0.0 kVATotal Conn. Load:0.0 kVA Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : Total Amps:0 A0 A0 ATotal Load:0.0 0.0 0.0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 29 Spare 20 A 1 0.0 / 0.0 1 20 A Spare 107 Spare 20 A 1 0.0 / 0.0 1 20 A Spare 85 Spare 20 A 1 0.0 / 0.0 1 20 A Spare 63 Spare 20 A 1 0.0 / 0.0 1 20 A Spare 41 Spare 20 A 1 0.0 / 0.0 1 20 A Spare 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (kVA)B Φ (kVA)C Φ (kVA)Poles Trip ACC Circuit Description CKT No t e s : Enclosure:Type 1 MCB Rating:200 AMounting:Surface Wires:4 Bus Rating:200 ASupply From:LV4 Phases:3 Mains Type:MCBLocation:ELEC. 114 Volts:120/208 Wye A.I.C. Rating:10,000Panelboard: LV4A No t e s : To t a l E s t . D e m a n d : 10 A To t a l C o n n . : 10 A To t a l E s t . D e m a n d : 3. 5 k V A Ap p l i a n c e 1 5 0 0 V A 1 0 0 . 0 0 % 1 5 0 0 V A To t a l C o n n . L o a d : 3. 5 k V A Re c e p t a c l e 1 9 8 0 V A 1 0 0 . 0 0 % 1 9 8 0 V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 17 A 8 A 5 A To t a l L o a d : 2. 0 0 . 9 0 . 5 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 3 2 0 0 A L u g s L V 5 A F e e d T h r u 38 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 W a t e r H e a t e r 2 0 A 1 1 . 5 / 0 . 0 1 2 0 A S p a r e 8 5 R e c e p t a c l e 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e 6 3 R e c e p t a c l e 2 0 A 1 0 . 4 / 0 . 5 1 2 0 A R e c e p t a c l e 4 1 R e c e p t a c l e E L E C . 1 1 3 2 0 A 1 0 . 2 / 0 . 4 1 2 0 A R e c e p t a c l e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : T5 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 1 1 3 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 5 No t e s : To t a l E s t . D e m a n d : 0 A To t a l C o n n . : 0 A To t a l E s t . D e m a n d : 0. 0 k V A To t a l C o n n . L o a d : 0. 0 k V A Lo a d C l a s s i f i c a t i o n C o n n e c t e d L o a d D e m a n d F a c t o r D e m a n d L o a d P a n e l T o t a l s Br e a k e r A c c e s s o r i e s ( A C C ) : BL = B r e a k e r L o c k / F A = F i r e A l a r m C i r c u i t B r e a k e r / G F = 3 0 m A G F C I C i r c u i t B r e a k e r Le g e n d : To t a l A m p s : 0 A 0 A 0 A To t a l L o a d : 0. 0 0 . 0 0 . 0 41 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 2 39 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 0 37 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 8 35 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 6 33 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 4 31 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 2 29 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 3 0 27 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 8 25 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 6 23 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 4 21 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 2 19 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 0 17 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 8 15 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 6 13 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 4 11 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 2 9 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 1 0 7 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 8 5 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 6 3 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 4 1 S p a r e 2 0 A 1 0 . 0 / 0 . 0 1 2 0 A S p a r e 2 CK T C i r c u i t D e s c r i p t i o n A C C T r i p P o l e s A Φ (k V A ) B Φ (k V A ) C Φ (k V A ) Po l e s T r i p A C C C i r c u i t D e s c r i p t i o n C K T No t e s : En c l o s u r e : Ty p e 1 MC B R a t i n g : 20 0 A Mo u n t i n g : Su r f a c e Wi r e s : 4 Bu s R a t i n g : 20 0 A Su p p l y F r o m : LV 5 Ph a s e s : 3 Ma i n s T y p e : MC B Lo c a t i o n : EL E C . 1 1 3 Vo l t s : 12 0 / 2 0 8 W y e A. I . C . R a t i n g : 10 , 0 0 0 Pa n e l b o a r d : L V 5 A NO. DESCRIPTION DATE F S FF F SSSSS S S SS S TSFSSSSS S EO L R RS R S RS 15 c d 15 c d S H S D FS TS PS AS EP ES ET IM R FI R E A L A R M CO N T R O L PA N E L FA A P VE S T I B U L E 10 1 12 0 V D E D I C A T E D CI R C U I T ( B Y E . C . ) 12 -2 16 -2 16 -2 16 -2 16 -2 EL E V A T O R LO B B Y 20 1 EL E V A T O R LO B B Y 30 1 EL E V A T O R LO B B Y 40 1 EL E V A T O R LO B B Y 50 1 EL E V A T O R LO B B Y 10 3 SE R V I C E EL E V A T O R LO B B Y 11 8 VE S T I B U L E 10 1 VE S T I B U L E 10 8 VE S T I B U L E 10 9 SE R V I C E CO R R I D O R 11 9 VE S T I B U L E 10 1 VE S T I B U L E 10 8 VE S T I B U L E 10 9 SE R V I C E CO R R I D O R 11 9 EX T E R I O R WA T E R 12 0 EL E C T R I C A L 10 4 SE R V I C E EL E V A T O R LO B B Y 20 8 SE R V I C E EL E V A T O R LO B B Y 30 8 SE R V I C E EL E V A T O R LO B B Y 40 8 SE R V I C E EL E V A T O R LO B B Y 50 8 16 -2 16 -2 16 -2 16 -2 16 -2 16 -2 16 -2 RT U -3 RT U -2 RT U -1 RT R RT R RT R RT R RT R RT R EL E C T R I C A L 50 2 EL E C T R I C A L 50 2 EL E C T R I C A L 50 2 1 2 FI R E A L A R M S Y S T E M S FI R E HO R N , WA L L MO U N T E D AT +9 0 " A. F . F . OR ‐6" B. F . C . FI R E ST R O B E , WA L L MO U N T E D AT +9 0 " A. F . F . OR ‐6" B. F . C . FI R E HO R N / S T R O B E , WA L L MO U N T E D AT +9 0 " A. F . F . OR ‐6" B. F . C . SM O K E DE T E C T O R ‐ PH O T O E L E C T R I C HE A T DE T E C T O R ‐ FI X E D TE M P E R A T U R E DU C T SM O K E DE T E C T O R ‐ PH O T O E L E C T R I C FL O W TA M P E R SW I T C H PR E S S U R E SW I T C H AL A R M SW I T C H EL E V A T O R PR I M A R Y RE C A L L IN P U T EL E V A T O R SE C O N D A R Y RE C A L L IN P U T EL E V A T O R SH U N T TR I P IN P U T MA N U A L PU L L ST A T I O N , +4 8 " A. F . F . AD D R E S S A B L E IN P U T MO D U L E , SI N G L E OR DU A L AS RE Q U I R E D AD D R E S S A B L E RE L A Y MO D U L E MA G N E T I C DO O R HO L D E R FI R E AL A R M CO N T R O L PA N E L FA C FI R E AL A R M AN N U N C I A T O R PA N E L FA A F AB O R T SW I T C H , SY S T E M TY P E AS SH O W N EP O FI R E A L A R M P L A N S - GE N E R A L N O T E S 1. I N I T I A T I N G C I R C U I T S S H A L L B E 1 8 / 2 A W G T W I S T E D P A I R F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . 2. N A C C I R C U I T S S H A L L B E 1 2 / 2 A W G F P L C A B L E , A N D F P L P C A B L E W H E R E O P E N P L E N U M R E T U R N I S U S E D . FI R E A L A R M P L A N S - KE Y E D N O T E S 1 RE M O T E T E S T A N D R E S E T S W I T C H F O R D U C T S M O K E DE T E C T O R S I N R O O F T O P E Q U I P M E N T . R E F E R T O S H E E T E2 0 5 F O R L O C A T I O N . PR O V I D E H O R N / S T R O B E C O M B I N A T I O N I N A W E A T H E R RE S I S T A N T E N C L O S U R E . H O R N / S T R O B E S H A L L B E T I E D TO A C T I V A T I O N O F T H E W A T E R F L O W S E N S O R . S E T T H E CA N D E L A A N D S O U N D O U T P U T S T O T H E L E V E L S RE Q U I R E D B Y T H E F I R E M A R S H A L . 2 C E N G I N E E R L A N O I SSORPEFIANADNIIETREDSGERNo. PE11400027 STATE OFAAMERONT.Y A M A S H I T .................................................................................................15194ISSUE DATE DRAWN BY CHECKED BYin terms of architectural design concept, the dimensions of These drawings indicate the general scope of the project the building, the major architectural elements and the type work required for full performance and completion of the the trade contractors shall furnish all items required for the proper execution and completion of the work. The drawings do not necessarily indicate or describe all On the basis of the general scope indicated or described,of structural, mechanical and electrical systems.requirements of the Contract.Carmel, Indiana ALLIED SOLUTIONS HEADQUARTERSMIDTOWN CARMEL CORPORATEc 2015 CSO Architects, Inc. All Rights Reserved -CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERDRAWING TITLE:REVISIONS:SCOPE DRAWINGS:PROJECT:DRAWING TITLE:CERTIFIED BY:DRAWING NUMBER PROJECT NUMBERBCDRJB 160326831 East 32nd Street, Suite 200Indianapolis, IN 46226 Office: 317.860.2990Fax: 317.860.2964 www.deemfirst.com FIRE ALARM DETAILS E701 E7 0 1 FI R E A L A R M S C H E M A T I C D I A G R A M 1 NO. DESCRIPTION DATE STATE SUBMISSION 06/24/16