FCC ID: MCLT6098U DOCSIS CABLE MODEM14

 

A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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2 1 8 9 8 0 0 U U s s e e r r s s M M a a n n u u a a l l A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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2 1 8 9 8 0 0 I n t r o d u c t i o n C o n g r a t u l a t i o n s o n Y o u r P u r c h a s e

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Y o u r n e w D O C S I S C a b l e M o d e m w i l l p r o v i d e y o u w i t h h i g h

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s p e e d a c c e s s t o t h e I n t e r n e t t h r o u g h y o u r c a b l e T V

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C A T V

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a c c e s s a t a f r a c t i o n o f t h e t i m e i t t a k e s t r a d i t i o n a l t e l e p h o n e m o d e m s

. I n a d d i t i o n

, y o u r s e r v i c e w i l l b e a l w a y s c o n n e c t e d

. T h o s e t w o f e a t u r e s g i v e y o u t h e i n f o r m a t i o n y o u w a n t

, w h e n y o u w a n t i t

. a n d y o u r t e l e p h o n e l i n e i s k e p t f r e e

. I m p o r t a n t R u l e s f o r S a f e O p e r a t i o n I n a d d i t i o n t o t h e c a r e f u l a t t e n t i o n d e v o t e d t o q u a l i t y s t a n d a r d s i n t h e m a n u f a c t u r e o f y o u r A m b i t D O C S I S C a b l e M o d e m

, s a f e t y i s a m a j o r f a c t o r i n t h e d e s i g n o f e v e r y p r o d u c t

. H o w e v e r

, s a f e t y i s y o u r r e s p o n s i b i l i t y

, t o o

. T h i s s e c t i o n l i s t s i m p o r t a n t i n f o r m a t i o n t h a t w i l l h e l p a s s u r e y o u r e n j o y m e n t a n d p r o p e r u s e o f t h e A m b i t C a b l e M o d e m a n d a c c e s s o r y e q u i p m e n t

. P l e a s e r e a d t h e m c a r e f u l l y b e f o r e o p e r a t i n g a n d u s i n g y o u r m o d e m

. A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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B a s e d I n d u s t r i a P a r k T a i w a n

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2 1 8 9 8 0 0 I n s t a l l a t i o n R e a d a n d F o l l o w I n s t r u c t i o n s

-

Y o u s h o u l d r e a d a l l t h e s a f e t y a n d o p e r a t i n g i n s t r u c t i o n s b e f o r e o p e r a t i n g t h e m o d e m

. F o l l o w a l l o p e r a t i n g i n s t r u c t i o n s

. R e t a i n I n s t r u c t i o n s

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Y o u s h o u l d s a v e a l l t h e s a f e t y a n d o p e r a t i n g i n s t r u c t i o n s

, f o r y o u r f u t u r e r e f e r e n c e

. H e e d W a r n i n g s

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C o m p l y w i t h a l l w a r n i n g s o n t h e p r o d u c t s a n d i n t h e o p e r a t i n g i n s t r u c t i o n s

. C h e c k P o w e r S o u r c e s

-

O p e r a t e t h i s p r o d u c t o n l y f r o m t h e t y p e o f p o w e r s o u r c e i n d i c a t e d o n t h e p r o d u c t

'

s m a r k i n g l a b e l

. I f y o u a r e n o t s u r e o f t h e t y p e o f p o w e r s u p p l i e d t o y o u r h o m e

, c o n s u l t y o u r d e a l e r o r l o c a l p o w e r c o m p a n y

. B e C a r e f u l o f O v e r l o a d i n g

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D o n o t o v e r l o a d w a l l o u t l e t s o r e x t e n s i o n c o r d s

, a s t h i s c a n r e s u l t i n a r i s k o f f i r e o r e l e c t r i c s h o c k

. O v e r l o a d e d A C o u t l e t s

, e x t e n s i o n c o r d s

, f r a y e d p o w e r c o r d s

, d a m a g e d o r c r a c k e d w i r e i n s u l a t i o n

, a n d b r o k e n p l u g s a r e d a n g e r o u s

. T h e y m a y r e s u l t i n a s h o c k o r f i r e h a z a r d

. P e r i o d i c a l l y e x a m i n e t h e c o r d

, a n d

, i f i t s a p p e a r a n c e i n d i c a t e s d a m a g e o r d e t e r i o r a t e d i n s u l a t i o n

, h a v e i t r e p l a c e d b y y o u r s e r v i c e t e c h n i c i a n

. P r o t e c t P o w e r C o r d s

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R o u t e p o w e r s u p p l y c o r d s s o t h a t t h e y a r e n o t l i k e l y t o b e w a l k e d o n o r p i n c h e d b y i t e m s p l a c e d u p o n o r a g a i n s t t h e m

. P a y p a r t i c u l a r a t t e n t i o n t o c o r d s w h e r e t h e y a r e a t t a c h e d t o p l u g s a n d c o n v e n i e n c e r e c e p t a c l e s

, a n d e x a m i n e t h e p o i n t w h e r e t h e y e x i t f r o m t h e p r o d u c t

. C h e c k V e n t i l a t i o n

-

S l o t s a n d o p e n i n g s i n t h e e n c l o s u r e a r e p r o v i d e d f o r v e n t i l a t i o n t o e n s u r e r e l i a b l e o p e r a t i o n o f t h e p r o d u c t a n d t o p r o t e c t i t f r o m o v e r h e a t i n g

. D o n o t b l o c k o r c o v e r t h e s e o p e n i n g s

. N e v e r b l o c k t h e s e o p e n i n g s b y p l a c i n g t h e p r o d u c t o n a b e d

, s o f a

, r u g

, o r o t h e r s i m i l a r s u r f a c e

. N e v e r p l a c e t h i s p r o d u c t n e a r o r o v e r a r a d i a t o r o r h e a t r e g i s t e r

, o r a n y o t h e r h e a t s o u r c e

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i n c l u d i n g a m p l i f i e r s

)

. D o n o t p l a c e t h i s p r o d u c t i n a b u i l t

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i n i n s t a l l a t i o n

, s u c h a s a b o o k c a s e o r e q u i p m e n t r a c k

, u n l e s s y o u p r o v i d e p r o p e r v e n t i l a t i o n

. D o N o t U s e A c c e s s o r i e s

-

D o n o t u s e a t t a c h m e n t s

, u n l e s s t h e y a r e r e c o m m e n d e d b y A m b i t

, a s t h e y m a y c a u s e e l e c t r i c a l o r f i r e h a z a r d s

. U s e t h e R e c o m m e n d e d A C A d a p t o r

-

Y o u m u s t u s e t h e A d a p t o r t h a t c o m e s w i t h y o u r A m b i t C a b l e M o d e m

. D o N o t U s e N e a r W a t e r

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D o n o t u s e t h i s p r o d u c t n e a r w a t e r

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f o r e x a m p l e

, n e a r a b a t h t u b

, w a s h b o w l

, k i t c h e n s i n k o r l a u n d r y t u b

, i n a w e t b a s e m e n t o r n e a r a s w i m m i n g p o o l

, a n d t h e l i k e

. D o N o t P l a c e N e a r H i g h T e m p e r a t u r e S o u r c e

-

f o r e x a m p l e n e a r a s t e a m e r

, K i t c h e n r a n g e f i r e

, a n d t h e l i k e

. U s e C a u t i o n i n M o u n t i n g T h i s P r o d u c t

-

D o n o t p l a c e t h i s p r o d u c t o n a n u n s t a b l e s u r f a c e o r s u p p o r t

. T h e p r o d u c t m a y f a l l

, c a u s i n g s e r i o u s i n j u r y t o a c h i l d o r a d u l t

, a s w e l l a s s e r i o u s d a m a g e t o t h e p r o d u c t

. U s e C a r e i n M o v i n g P r o d u c t

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a n d

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C a r t C o m b i n a t i o n s

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c a r t c o m b i n a t i o n t o o v e r t u r n

. G r o u n d t h e C a b l e S y s t e m

-

B e s u r e t h a t t h e o u t s i d e c a b l e s y s t e m i s g r o u n d e d

, s o a s t o p r o v i d e s o m e p r o t e c t i o n a g a i n s t v o l t a g e s u r g e s a n d b u i l t

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. S e c t i o n 8 1 0 o f t h e N a t i o n a l E l e c t r i c C o d e

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S e c t i o n 5 4 o f t h e C a n a d i a n E l e c t r i c a l C o d e

, P a r t 1

) p r o v i d e s i n f o r m a t i o n w i t h r e s p e c t t o p r o p e r g r o u n d i n g o f t h e c a b l e s y s t e m

. A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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2 1 8 9 8 0 0 D o n o t d i s c o n n e c t R F c a b l e f r o m y o u r A m b i t C a b l e M o d e m w h i l e t h e p o w e r t o y o u r m o d e m i s o n

. U s e U n p l u g P o w e r B e f o r e C l e a n i n g

-

D o n o t u s e l i q u i d c l e a n e r o r a e r o s o l c l e a n e r

. U s e a d a m p c l o t h f o r c l e a n i n g

. K e e p O b j e c t s O u t o f O p e n i n g s

-

N e v e r p u s h o b j e c t s o f a n y k i n d i n t o t h i s p r o d u c t t h r o u g h o p e n i n g s

, a s t h e y m a y t o u c h d a n g e r o u s v o l t a g e o r

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s h o r t

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p a r t s

, w h i c h c o u l d r e s u l t i n a f i r e o r e l e c t r i c s h o c k

. N e v e r s p i l l l i q u i d o n t h e p r o d u c t

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-

F o r a d d e d p r o t e c t i o n f o r t h i s p r o d u c t d u r i n g a l i g h t n i n g s t o r m

, o r w h e n i t i s l e f t u n a t t e n d e d a n d u n u s e d f o r l o n g p e r i o d s o f t i m e

, u n p l u g i t f r o m t h e w a l l o u t l e t

, a n d d i s c o n n e c t t h e c a b l e s y s t e m

. T h i s w i l l p r e v e n t d a m a g e t o t h e p r o d u c t d u e t o l i g h t n i n g a n d p o w e r l i n e s u r g e s

. T a k e a t l e a s t 1 0 s e c o n d s b e t w e e n D C p l u g o f f a n d o n

. S e r v i c e D o N o t R e m o v e C o v e r s

-

D o n o t a t t e m p t t o s e r v i c e t h i s p r o d u c t y o u r s e l f

, a s o p e n i n g o r r e m o v i n g c o v e r s m a y e x p o s e y o u t o d a n g e r o u s v o l t a g e o r o t h e r h a z a r d s

. R e f e r a l l s e r v i c i n g t o q u a l i f i e d s e r v i c e p e r s o n n e l

. U n p l u g t h i s p r o d u c t f r o m t h e w a l l o u t l e t c a r e f u l l y

, a s t h e A C a d a p t o r m a y b e h o t

. R e f e r S e r v i c i n g t o Q u a l i f i e d S e r v i c e P e r s o n n e l U n d e r t h e C o n d i t i o n s L i s t e d B e l o w W h e n t h e p o w e r s u p p l y c o r d o r p l u g i s d a m a g e d

. I f l i q u i d h a s b e e n s p i l l e d o r o b j e c t s h a v e f a l l e n i n t o t h e p r o d u c t

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. I f t h e p r o d u c t d o e s n o t o p e r a t e n o r m a l l y b y f o l l o w i n g t h e o p e r a t i n g i n s t r u c t i o n s

. A d j u s t o n l y t h o s e c o n t r o l s t h a t a r e c o v e r e d b y t h e o p e r a t i n g i n s t r u c t i o n s

. I f t h e p r o d u c t h a s b e e n d r o p p e d o r t h e c a b i n e t h a s b e e n d a m a g e d

. W h e n t h e p r o d u c t e x h i b i t s a d i s t i n c t c h a n g e i n p e r f o r m a n c e

, s u c h a s t h e i n a b i l i t y t o p e r f o r m b a s i c f u n c t i o n s

-

t h i s i n d i c a t e s a n e e d f o r s e r v i c e

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-

U p o n c o m p l e t i o n o f a n y s e r v i c e o r r e p a i r s t o t h i s p r o d u c t

, a s k t h e s e r v i c e t e c h n i c i a n t o p e r f o r m s a f e t y c h e c k s r e c o m m e n d e d b y A m b i t t o d e t e r m i n e t h a t t h e p r o d u c t i s i n s a f e o p e r a t i n g c o n d i t i o n

. O v e r v i e w T h e m o d e m p r o v i d e s y o u w i t h h i g h

-

s p e e d d a t a c o m m u n i c a t i o n s o v e r t h e t e l e v i s i o n c a b l e n e t w o r k b y f o l l o w i n g t h e w i d e l y a c c e p t e d D O C S I S

/

M C N S s t a n d a r d s b e i n g d e v e l o p e d b y t h e M u l t i m e d i a C a b l e N e t w o r k S y s t e m

(

M C N S

) c o n s o r t i u m

. T h o s e s t a n d a r d s o f f e r a c o m b i n a t i o n o f h i g h p e r f o r m a n c e a n d i n t e r o p e r a b i l i t y a m o n g m a n y o f t h e c a b l e s y s t e m o p e r a t o r s i n N o r t h A m e r i c a

. A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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2 1 8 9 8 0 0 H o w d o e s a c a b l e m o d e m w o r k

?

A s y o u k n o w

, d i g i t a l s i g n a l s a r e r e p r e s e n t e d b y h i g h a n d l o w e l e c t r i c a l v o l t a g e l e v e l s

. A n d h o w f a s t t h e s e l e v e l s c a n s w i t c h a n d s t i l l b e t r a n s m i t t e d i s d e t e r m i n e d b y t h e

"

b a n d w i d t h

"

o f t h e t r a n s m i s s i o n s y s t e m

. T h e p a i r o f w i r e s u s e d i n a t e l e p h o n e c o n n e c t i o n h a v e g r e a t l y l i m i t e d b a n d w i d t h

, b e c a u s e o f t h e i r e l e c t r i c a l c h a r a c t e r i s t i c s

. S o w h a t w e d o i s c o n n e c t a d e v i c e c a l l e d a m o d e m b e t w e e n t h e c o m p u t e r o u t p u t a n d t h e

'

p h o n e l i n e

. T h e m o d e m g e n e r a t e s a n e l e c t r i c a l w a v e w h o s e s t r e n g t h a n d p h a s e c h a n g e i n s t e p w i t h t h e h i g h s a n d l o w s o f t h e c o m p u t e r

'

s d i g i t a l o u t p u t

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s b e c a u s e o f t h e

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s m o o t h n e s s

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o f t h e r e s u l t a n t s i g n a l t h a t a h i g h e r d a t a r a t e c a n b e t r a n s m i t t e d

. A c a b l e m o d e m M O d u l a t e s a n d D E M o d u l a t e s e l e c t r i c a l s i g n a l s i n t h e s a m e s e n s e t h a t t h e t e l e p h o n e m o d e m d o e s

. H o w e v e r

, s i n c e c o a x i a l c a b l e c a n c a r r y m u c h h i g h e r w a v e f r e q u e n c i e s

, c a b l e m o d e m s a r e f a r m o r e s o p h i s t i c a t e d

. T h e i r i n t e r n a l s c a n i n c l u d e a t u n e r

, a b r i d g e

, a r o u t e r

, a n e n c r y p t i o n

/

d e c r y p t i o n d e v i c e

, a n S N M P a g e n t a n d a n E t h e r n e t h u b

. F u r t h e r m o r e

, n o n e o f t h e a c t i v i t y c a u s e d b y t h e s e c i r c u i t s a n d c o d e s d i s t u r b s y o u r r e g u l a r c a b l e T V r e c e p t i o n

. H o w d o e s a c a b l e m o d e m c o n n e c t t o a c o m p u t e r

?

T h e U S B c o n n e c t i o n u s e d b y A m b i t i s e m e r g i n g a s t h e m o s t p o p u l a r

. T h e n e w D O C S I S s t a n d a r d m a y c h a n g e t h i s i n t h e f u t u r e

. B u t f o r n o w

, a n U S B P o r t i n y o u r c o m p u t e r A m b i t p o r t f o r t h e A m b i t C a b l e M o d e m t o w o r k

. W h a t i s D O C S I S

?

D a t a O v e r C a b l e S e r v i c e I n t e r f a c e S p e c i f i c a t i o n s

. D O C S I S d e f i n e s i n t e r f a c e r e q u i r e m e n t s f o r c a b l e m o d e m s i n v o l v e d i n h i g h

-

s p e e d d a t a d i s t r i b u t i o n o v e r a c a b l e t e l e v i s i o n n e t w o r k

. O n N o v e m b e r 1 7

, 1 9 9 7

, C a b l e T e l e v i s i o n L a b o r a t o r i e s

, I n c

.

(

C a b l e L a b s

) a n d i t s m e m b e r s e s t a b l i s h e d a f o r m a l p a t h o f c e r t i f i c a t i o n f o r c a b l e m o d e m e q u i p m e n t s u p p l i e r s t o o b t a i n a n

"

i n t e r o p e r a b i l i t y s e a l

"

f o r t h e i r p r o d u c t s b a s e d o n t h e D O C S I S s p e c i f i c a t i o n

. T h i s c e r t i f i c a t i o n p r o c e s s p r o v i d e s c a b l e m o d e m e q u i p m e n t s u p p l i e r s w i t h a f a s t

, m a r k e t

-

o r i e n t e d m e t h o d f o r a t t a i n i n g c a b l e i n d u s t r y a c k n o w l e d g m e n t o f c o m p l i a n c e w i t h D O C S I S

. T h e s e a l i s m e a n t t o p r o v i d e t h e p u r c h a s e r w i t h a w a y t o b e c o n f i d e n t t h a t t h e m o d e m e q u i p m e n t t o b e p u r c h a s e d i s c o m p l i a n t w i t h t h e s p e c i f i c a t i o n

, a n d t h a t t h e e q u i p m e n t i n t e r o p e r a t e s w i t h D O C S I S p r o d u c t s m a d e b y o t h e r v e n d o r s

. A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

:

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'

s i n t h e B o x

?

M a k e s u r e t h a t y o u

'

v e r e c e i v e d t h e f o l l o w i n g i t e m s

. I f a n y i t e m i s m i s s i n g o r d a m a g e d

, c o n t a c t y o u r d e a l e r i m m e d i a t e l y

. A m b i t D O C S I S C a b l e M o d e m U S B C a b l e

(

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) A C A d a p t o r T h i s m a n u a A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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. Y o u c a n m o n i t o r t h e L E D s d u r i n g i n s t a l l a t i o n a n d p o w e r o n

. T a b l e 1 s h o w s A m b i t C a b l e M o d e m s t a t u s L E D s a n d i d e n t i f i e s w h a t e a c h L E D l i g h t m e a n s

. T h i s t a b l e w i l l h e l p y o u t o d i a g n o s e p r o b l e m s

. F u n c t i o n C o l o r D e f i n i t i o n P o w e r G r e e n

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d a r k f o r p o w e r o f f

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s o l i d f o r p o w e r o n C a b l e G r e e n

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d a r k f o r n o d o w n s t r e a m R F c a r r i e r p r e s e n t o r p o w e r o f f

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f l a s h i n g s l o w l y f o r d o w n s t r e a m R F c a r r i e r p r e s e n t a n d r a n g i n g i n p r o g r e s s

-

f l a s h i n g f a s t f o r r e g i s t r a t i o n i n p r o g r e s s

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s o l i d f o r t h e C a b l e M o d e m r e g i s t e r e d a n d r e a d y t o t r a n s f e r d a t a P C G r e e n

-

d a r k f o r n o E t h e r n e t c a r r i e r p r e s e n t o r p o w e r o f f

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s o l i d f o r E t h e r n e t c a r r i e r p r e s e n t D a t a G r e e n

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d a r k f o r n o u s e r d a t a g o i n g t h r o u g h t h e C a b l e M o d e m o r p o w e r o f f

-

f l a s h i n g f o r u s e r d a t a g o i n g t h r o u g h t h e C a b l e M o d e m T e s t A m b e r

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d a r k f o r i n i t i a l s e l f

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-

s o l i d f o r s e l f

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(

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:

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, c l a s s B A c c e s s o r y

:

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2 1 8 9 8 0 0 F C C C o m p l i a n c e T h i s A m b i t D O C S I S C a b l e M o d e m h a s b e e n t e s t e d a n d f o u n d t o c o m p l y w i t h t h e l i m i t s f o r a C l a s s B p e r s o n a l c o m p u t e r a n d p e r i p h e r a l s

, p u r s u a n t t o P a r t 1 5 o f t h e F C C R u l e s

. T h e s e l i m i t s a r e d e s i g n e d t o p r o v i d e r e a s o n a b l e p r o t e c t i o n a g a i n s t h a r m f u l i n t e r f e r e n c e i n a r e s i d e n t i a l i n s t a l l a t i o n

. T h i s e q u i p m e n t g e n e r a t e s

, u s e s a n d c a n r a d i a t e r a d i o f r e q u e n c y e n e r g y a n d

, i f n o t i n s t a l l e d a n d u s e d i n a c c o r d a n c e w i t h t h e i n s t r u c t i o n s

, m a y c a u s e h a r m f u l i n t e r f e r e n c e t o r a d i o c o m m u n i c a t i o n s

. H o w e v e r

, t h e r e i s n o g u a r a n t e e t h a t i n t e r f e r e n c e w i l l n o t o c c u r i n a p a r t i c u l a r i n s t a l l a t i o n

, i f t h i s u n i t d o e s c a u s e h a r m f u l i n t e r f e r e n c e t o r a d i o o r t e l e v i s i o n r e c e p t i o n

, w h i c h c a n b e d e t e r m i n e d b y t u r n i n g t h e u n i t o f f a n d o n

, t h e u s e r i s e n c o u r a g e d t o t r y t o c o r r e c t t h e i n t e r f e r e n c e b y o n e o r m o r e o f t h e f o l l o w i n g m e a s u r e s

:

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. I n c r e a s e t h e s e p a r a t i o n b e t w e e n t h e e q u i p m e n t a n d r e c e i v e r

. C o n n e c t t h e e q u i p m e n t i n t o a n o u t l e t o n a c i r c u i t d i f f e r e n t f r o m t h a t t o w h i c h t h e r e c e i v e r i s c o n n e c t e d

. C o n s u l t t h e d e a l e r o r e x p e r i e n c e d r a d i o

/

T V t e c h n i c i a n f o r h e l p

. S u b n e t A n e t w o r k s u b d i v i s i o n

. W h e n s u b n e t t i n g i s u s e d

, t h e I P

(

I n t e r n e t P r o t o c o l

) a d d r e s s i s d i v i d e d i n t o a s u b n e t n u m b e r a n d a h o s t n u m b e r

. H o s t s a n d g a t e w a y s i d e n t i f y t h e b i t s u s e d f o r t h e n e t w o r k a n d s u b n e t n u m b e r t h r o u g h t h e u s e o f a s u b n e t m a s k

. T C P

/

I P c o m m u n i c a t i o n s t a c k S o f t w a r e i n t h e s u b s c r i b e r c o m p u t e r t h a t p r o c e s s e s p a c k e t s t h r o u g h t h e c o m m u n i c a t i o n l a y e r s

. T h e s u b s c r i b e r c o n f i g u r e s t h e I P a d d r e s s e s f o r t h e c o m p u t e r a n d t h e r o u t e r d e f a u l t g a t e w a y i n t h e s o f t w a r e

. T h e T C P

/

I P c o m m u n i c a t i o n s t a c k h a n d l e s a l l t h e c o m m u n i c a t i o n s w i t h t h e s u b s c r i b e r

'

s a p p l i c a t i o n

. A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

:

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2 1 8 9 8 0 0 I n s t a l l i n g t h e C a b l e M o d e m T h e A m b i t D O C S I S C a b l e M o d e m i s d e s i g n e d t o b e p o s i t i o n e d v e r t i c a l l y o r h o r i z o n t a l l y

. T o a v o i d t h e r m a l p r o b l e m s

, a l l o w a t l e a s t o n e i n c h s p a c i n g b e t w e e n t h e v e n t i l a t i o n h o l e s a n d a n y o b j e c t t o e i t h e r s i d e o f t h e u n i t

. I t

'

s b e s t t o h a v e n o o b s t r u c t i o n s o n t o p o f t h e u n i t

. T h e t o p o f t h e u n i t s h o u l d b e a t l e a s t t w o i n c h e s f r o m a n y o b s t r u c t i o n

. C o n n e c t t h e c a b l e m o d e m u s i n g t h e f o l l o w i n g s t e p s

, r e f e r r i n g t o t h e f i g u r e b e l o w

. 1

. C o n n e c t t h e C a b l e T V c o a x t o t h e i n p u t c o n n e c t o r o f a s i g n a l s p l i t t e r

. 2

. C o n n e c t a c o a x i a l c a b l e f r o m o n e o f t h e o u t p u t c o n n e c t o r s o f t h e s p l i t t e r t o t h e i n p u t c o n n e c t o r o f t h e t e l e v i s i o n s e t

. 3

. C o n n e c t a c o a x i a l c a b l e f r o m t h e o t h e r o u t p u t c o n n e c t o r o f t h e s p l i t t e r t o t h e R F i n p u t c o n n e c t o r o n t h e c a b l e m o d e m r e a r p a n e l

. 4

. C o n n e c t t h e U S B s i g n a l c a b l e f r o m y o u r c o m p u t e r t o t h e U S B c o n n e c t o r o n t h e c a b l e m o d e m r e a r p a n e l

. 5

. C o n n e c t t h e A C a d a p t e r t o t h e D C I N j a c k o n t h e c a b l e m o d e m r e a r p a n e l

. T h e n p l u g i n t h e A C a d a p t e r t o t h e w a l l e l e c t r i c a l o u t l e t

. T h e p o w e r i n d i c a t o r L E D o n t h e m o d e m f r o n t p a n e l w i l l l i g h t

, i f p o w e r i s p r e s e n t a t t h e o u t l e t

. T h e m o d e m w i l l s t a r t o p e r a t i n g o n c e p o w e r i s c o n n e c t e d

. N o a d d i t i o n a l o p e r a t o r i n t e r v e n t i o n i s r e q u i r e d

. I t w i l l a u t o m a t i c a l l y f i n d t h e d a t a c h a n n e l

, r e g i s t e r a n d c o n n e c t t o y o u r c o m p u t e r

. C h e c k t h e c a b l e m o d e m s t a t u s

. T h e f r o n t p a n e l i n d i c a t o r s

(

L E D s

) s h o w t h a t t h e c a b l e m o d e m i s o p e r a t i n g p r o p e r l y w h e n t h e y a r e i n t h e f o l l o w i n g c o n d i t i o n

:

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l i t C A B L E

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l i t P C

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f l a s h i n g o r n o t l i t T E S T

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n o t l i t A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

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'

s W h a t i s a M C N S c o m p l i a n t c a b l e m o d e m

?

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(

o r a n o t h e r s y s t e m

)

, y o u g e t a c o n n e c t i o n t h r o u g h y o u r c a b l e n e t w o r k

(

s a m e p l a c e y o u r c a b l e T V c o n n e c t i o n c o m e s f r o m

)

. T h e b a n d w i d t h i s m u c h b i g g e r i n y o u r c a b l e n e t w o r k a n d a l l o w s y o u t o g e t i n f o r m a t i o n f r o m t h e i n t e r n e t a t m u c h f a s t e r s p e e d s

. A n d d o n o t w o r r y

, i n s t a l l a t i o n i s d o n e b y y o u r c a b l e o p e r a t o r o r c o m p u t e r s t o r e

. H o w c a n I a s a c o n s u m e r g e t a n C a b l e M o d e m a n d s i g n u p f o r t h e h i g h

-

s p e e d c a b l e m o d e m s e r v i c e

?

-

A m b i t c u r r e n t l y s e l l s t h e i r C a b l e M o d e m s d i r e c t l y t o c a b l e o p e r a t o r s

. T h e y i n t u r n s u p p l y t h e m t o y o u

. T h e y e i t h e r l e a s e t h e c a b l e m o d e m i n t h e i r m o n t h l y h i g h

-

s p e e d d a t a s e r v i c e f e e o r g i v e y o u t h e o p t i o n t o p u r c h a s e t h e m o d e m

. P l e a s e c o n t a c t y o u r l o c a l c a b l e o p e r a t o r t o s e e i f t h e y o f f e r t h e s e r v i c e i n y o u r a r e a a n d r e f e r e n c e o u r l i s t o f c o m m e r c i a l l y d e p l o y e d a r e a s

. W h a t e q u i p m e n t d o I n e e d t o u s e a n C a b l e M o d e m

?

-

A c a b l e o p e r a t o r t h a t p r o v i d e s t h e h i g h

-

s p e e d d a t a s e r v i c e

-

A C o m p u t e r

(

o u r C a b l e M o d e m i s p l a t f o r m i n d e p e n d e n t s o i t d o e s n o t m a t t e r w h a t k i n d

)

-

A s t a n d a r d U S B c o n n e c t i o n

(

i n s t a l l e d b y y o u r c a b l e o p e r a t o r

) C a n I s t i l l w a t c h c a b l e T V w h i l e u s i n g m y C a b l e M o d e m

?

-

Y e s

, y o u c a b l e w i r e i s s p l i t a t y o u r h o m e s o b o t h m a y b e u s e d a t t h e s a m e t i m e

. C a n I h a v e c a b l e m o d e m s e r v i c e b u t n o t s u b s c r i b e t o c a b l e T V

?

-

Y e s

, y o u m a y h a v e o n e

, o r b o t h

. H o w m u c h f a s t e r i s a n C a b l e M o d e m c o n n e c t i o n t h a n o t h e r i n t e r n e t c o n n e c t i o n s

.

-

P l e a s e r e f e r t o H o w F a s t

?

H o w l o n g d o e s i t t a k e t o l o g o n

?

-

Y o u r C a b l e M o d e m i s a l w a y s o n

, a c o n n e c t i o n i s a l w a y s o p e n

, s o y o u n e v e r h a v e t o w a i t f o r a s l o w l o g o n p r o c e d u r e

. I f I c a l l m y c a b l e o p e r a t o r a n d t h e y s a y t h e y d o n o t o f f e r h i g h

-

s p e e d c a b l e m o d e m s e r v i c e

, w h a t c a n I d o

?

-

T e l l t h e m t h a t y o u r a r e i n t e r e s t e d i n r e c e i v i n g t h e s e r v i c e a n d f i l l o u t o u r l e a d g e n e r a t o r f o u n d o n o u r w e b s i t e t o m a k e t h e m a w a r e o f t h e d e m a n d

. I f m y c a b l e o p e r a t o r o f f e r s t h e s e r v i c e

, b u t n o t w i t h t h e A m b i t C a b l e M o d e m

, c a n I p u r c h a s e t h e m o d e m f r o m y o u a n d u s e i t w i t h t h e i r s e r v i c e

?

-

U n f o r t u n a t e l y

, t h e c a b l e o p e r a t o r d e c i d e s w h o t h e i r c a b l e m o d e m v e n d o r i s g o i n g t o b e a n d y o u h a v e t o g o a l o n g A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

:

5 F

-

1

, 5 H s i n

-

A n R o a d

, H s i n c h u T a i p e i B r a n c h

:

1 1 F

, 1 0 0

-

1 M i n

-

C h u a n R o a d

, S c i e n c e

-

B a s e d I n d u s t r i a P a r k T a i w a n

, R

. O

. C

. H s i n

-

T i e n

, T a i w a n

, R

. O

. C

. T E L

:

+

8 8 6 3 5 7 8 4 9 7 5 T E L

:

+

8 8 6

-

2

-

2 1 8 9 8 0 0 u s e a C a b l e M o d e m

!

C a n I g e t a n i n t e r n a l C a b l e M o d e m

?

-

Y e s

, w e a r e p r o v i d i n g a l s o P C I b u s i n t e r f a c e i n t e r n a l c a b l e m o d e m

.

 

 

MAX LIGHT Technology Lab Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT Technology Lab Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT Technology Lab Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT Technology Lab Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT Technology Lab Report Number: MLT0007P15002 FCC ID: MCLT6098U

 

 

MAX LIGHT Technology Lab Label Format:

Label Position:

Equipment Lable 3cmX2cm Rear View Report Number: MLT0007P15002 FCC ID: MCLT6098U T h i s d e v i c e c o m p l i e s w i t h P a r t 1 5 o f t h e F C C R u l e s

. O p e r a t i o n i s s u b j e c t t o t h e f o l l o w i n g t w o c o n d i t i o n s

:

(

1

) T h i s d e v i c e m a y n o t c a u s e h a r m f u l i n t e r f e r e n c e

, a n d

(

2

) T h i s d e v i c e m u s t a c c e p t a n y i n t e r f e r e n c e r e c e i v e d

, i n c l u d i n g

. I n t e r f e r e n c e t h a t m a y c a u s e u n d e s i r e d o p e r a t i o n

. M o d e l

:

T 6 0 H 0 9 8

. 0 4 F C C I D

:

M C L T 6 0 9 8 U M A D E I N T A I W A N

 

 

1 2 3 4 5 6 POWER-B POWER-B.SCH DUAL_RS2 DUAL_RS2.SCH MAC_PHY MAC_PHY.SCH SDRAM 8MB W986416CH-8H SRAM 256KB IS63LV1024-10J CPU BCM3310 TEMIC Tuner PA4937 MAC/PHY BCM3300 Ethernet RS232 FLASH 2MB TE28F160S3-75 EPROM 1MB M27W801 CPU_MEM CPU_MEM.SCH ETHER-B ETHER-B.SCH TRA_CEIV TRA_CEIV.SCH TSPOINT1 TSPOINT1.SCH TSPOINT2 TSPOINT2.SCH D C B A D C B A 1 2 3 4 5 C:\TEMP\93310A.PRJ 2-Aug-2000 13:12:00 Title Doc.No. View AMBIT REVRev. Note S1 Page 7 1

-

SCHEMATIC T60H098.04 John Huang Prepared Checked Approved 6

 

 

A M B I T M i c r o s y s t e m s C o r p o r a t i o n H e a d q u a r t e r s

:

5 F

-

1

, 5 H s i n

-

A n R o a d

, H s i n c h u T a i p e i B r a n c h

:

1 1 F

, 1 0 0

-

1 M i n

-

C h u a n R o a d

, S c i e n c e

-

B a s e d I n d u s t r i a P a r k T a i w a n

, R

. O

. C

. H s i n

-

T i e n

, T a i w a n

, R

. O

. C

. T E L

:

+

8 8 6 3 5 7 8 4 9 7 5 T E L

:

+

8 8 6

-

2

-

2 1 8 9 8 0 0 M E S S E R S

:

M a x L i g h t T e c h n o l o g y C o

.

, L t d D A T E

:

0 7

/

1 5

/

2 0 0 0 P O W E R O F A T T O R N E Y S U B J E C T

:

F C C A P P L I C A T I O N W e

, t h e u n d e r s i g n e d

, h e r e b y a u t h o r i z e M a x L i g h t T e c h n o l o g y C o

.

, L t d

. T o a c t o n o u r b e h a l f i n a l l m a t t e r s r e l a t i n g t o a p p l i c a t i o n f o r e q u i p m e n t a u t h o r i z a t i o n o f o u r m o d e l

:

T 6 0 H 0 9 8

. 0 4 i n c l u d i n g t h e s i g n i n g o f a l l d o c u m e n t s r e l a t i n g t o t h e s e m a t t e r s

. A n y a n d a l l a c t s c a r r i e d o u t b y M a x L i g h t T e c h n o l o g y C o

.

, L t d

. O n o u r b e h a l f s h a l l h a v e t h e s a m e e f f e c t a s a c t s o f o u r o w n

. A p p l i c a n t

:

A M B I T M i c r o s y s t e m s C o r p o r a t i o n

. B y

:

R o g e r W u S i g n a t u r e P r i n t e d T i t l e

:

M a n a g e r

(

C o m m u n i c a t i o n B

. D

. R

&

D

)

 

 

Product : USB Cable Modem Applicant : AMBIT MICROSYSTEMS CORPORATION. FCC ID : MCLT6098U Model : T60H098.04 Report No. : MLT0007P15002 Test Date : July 25.2000 Test By Max Light Technology Co.,Ltd. Room 5, 8F, No.125, Section 3 Roosevelt Road, Taipei, Taiwan., R.O.C. Tel: 886-2-2363-2447 Fax: 886-2-2363-2597 T T h h e e t t e e s s t t r r e e p p o o r r t t c c o o n n s s i i s s t t s s o o f f 2 2 5 5 p p a a g g e e s s i i n n t t o o t t a a l l

. I I t t m m a a y y b b e e d d u u p p l l i i c c a a t t e e d d c c o o m m p p l l e e t t e e l l y y f f o o r r l l e e g g a a l l u u s s e e w w i i t t h h t t h h e e a a l l l l o o w w a a n n c c e e o o f f t t h h e e a a p p p p l l i i c c a a n n t t

. I I t t s s h h a a l l l l n n o o t t b b e e r r e e p p r r o o d d u u c c e e d d e e x x c c e e p p t t i i n n f f u u l l l l

,

, w w i i t t h h o o u u t t t t h h e e w w r r i i t t t t e e n n a a p p p p r r o o v v a a l l o o f f o o u u r r l l a a b b o o r r a a t t o o r r y y

. MAX LIGHT MEASUREMENT REPORT Page: 2/25 Technology Lab I. General 4. II. Conducted Emissions Requirements 10. III. Radiated Emissions Requirements 16. Appendix I (EUT Test Setup) 24. Appendix II (Model List) 25. Report Number: MLT0007P15002 FCC ID: MCLT6098U T a b l e o f C o n t e n t s

:

MAX LIGHT MEASUREMENT REPORT Page: 3/25 Technology Lab CERTIFICATION We here by verify that :

The test data, data evaluation, test procedures and equipment configurations shown in this report were made in accordance with the procedures given in ANSI C63.4-1992. All test were conducted by MLT(Max Light Technology Co.,Ltd) Room 5, 8F, No.125, Section 3 Roosevelt Road, Taipei, Taiwan, R.O.C Also, we attest to the accuracy of each. We further submit that the energy emitted by the sample EUT tested as described in the report is in compliance with Class B radiated and conducted emission limit of FCC Rules Part 15 Subpart B. EUT Applicant

: USB Cable Modem Manufacturer

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan Model No FCC ID

: T60H098.04

: MCLT6098U Prepared by :

Approved by :

Country Huang Roger Chen Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 4/25 Technology Lab I. GENERAL 1.1 Introduction The following measurement report is submitted on behalf of AMBIT MICROSYSTEMS CORPORATION. In support of a Class B Digital Device certification in accordance with Part2 Subpart J and Part 15 Subpart A And B of the Commissions and Regulations. 1.2 Description of EUT EUT Applicant

: USB Cable Modem Manufacturer

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan Model No

: T60H098.04 FCC ID

: MCLT6098U Power Type

: Powered by AC Adaptor ( Linear/10V DC/1.2 Amp) Powered by AC Adaptor ( Switch/10V DC/1.2 Amp) USB Cable

: USB Jack (Shielded, 7.5 long ) During testing the EUT was operated at Tx or Rx mode for each emission measured(P.S Run comment in Dos Mode). This was done in order to ensure that maximum emission levels were attained. Ping (IP Address) L 1000 T Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 5/25 Technology Lab 1.3 Description of Support Equipment In order to construct the minimum system which required by the ANSI C63.4-1991, following equipments were used as the support units. Computer Model No. Serial No. FCC ID Keyboard Model No. Serial No. FCC ID Monitor Model No. Serial No. FCC ID Mouse Model No. Serial No. FCC ID Printer Model No. Serial No. FCC ID

: IBM

: 16W

: BNC345M

: FCC DOC

: IBM

: KB-9930

: 09N5395

: FCC DOC

: IBM

: 10L6145 030

: 23-092079

: FCC DOC

: IBM

: 0180-05N

: 23-96142

: EMJMUSJJ

: PANASONIC

: KX-P1080I

: 7CKAKE98933

: ACJ5Z6KX-P10801 Cable Head End : NORTEL Model No. Serial No.

: CMTS1000

: 126D134 Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 6/25 Technology Lab Modem Model No. Serial No. FCC ID

: Askey (External Fax / Data Modem)

: WS1414VE

: IAH-10811

: H8N1414VE Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 7/25 Technology Lab 1.4 Configuration of System Under Test To Cable Head End Power Supply RS-232 Printer Monitor PC Keyboard RS-232 RJ11C Cables EUT Modem USB Cable Mouse To Cable Modem Coaxial Cable(5V-2C) RF Converter Nortel(CMTS1000) System Splitter Cable Modem Head End DHCP Server During testing the EUT(USB Cable Modem ) was connected to the USB port OF IBM PC. So there is no need for additional I/O card. A mouse was connected to the mouse port and a printer was connected to the parallel port. A external modem connected the serial port and the external modem connected with two unterminated telephone cables on the line and phone jack. A coaxial cable(5C-2V) was connected to the F connector of EUT and the coaxial cable(5C-2V) was connected to a simulator of cable modem head end . Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 8/25 Technology Lab Cable Modem Head End Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 9/25 Technology Lab 1.5 Test Procedure All measurements contained in this report were performed according to the techniques described in Measurement procedure ANSI C63.4-1992

"Measurement of unIntentional Radiators."

1.6 General Test Condition The conditions under which the EUT operates were varied to determine their effect on the equipment's emission characteristics. The final configuration of the test system and the mode of operation used during these tests was chosen as that which produced the highest emission levels. However, only those conditions which the EUT was considered likely to encounter in normal use were investigated. The system's radiated and conducted emissions were investigated while the computer alternately transferred data to the EUT (1000 bytes). Run Ping

(IP Address -T comment which sent a continuous stream of 1000 Bytes data to EUT and transferred data to and from the EUT was proven to worst case emissions. The system's physical layout and cabling was randomly arranged to ensure that maximum emission levels were attained. L 1000) Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 10/25 Technology Lab II. Conducted Emissions Requirements 2.1 General & Setup :

The power line conducted emission measurements were performed in a shielded enclosure. The EUT was assembled on a wooden table which is 80 centimeters high, was placed 40 centimeters from the backwall and at least 1 meter from the sidewall. Power was fed to the EUT from the public utility power grid through a line filter and EMCO Model 3825/2 Line Impedance Stabilization Networks

(LISN). The LISN housing, measuring instrumentation case, ground plane, etc., were electrically bonded together at the same RF potential. The Spectrum analyzer was connected to the AC line through an isolation transformer. The 50-ohm output of the LISN was connected to the spectrum analyzer directly. Conducted emission levels were in the CISPER quasi-peak detection mode. The analyzer's 6 dB bandwidth was set to 9 KHz. No post-detector video filter was used. The spectrum was scanned from 450 KHz to 30 MHz. The physical arrangement of the test system and associated cabling was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude and frequency. All spurious emission frequencies were observed. The highest emission amplitudes relative to the appropriate limit were measured and have been recorded in paragraph 2.6. 2.2 Test Equipment List:

A. EMCO 3825/2 LISN (S/N:2654) B. EMCO 3825/2 LISN (S/N:2658) C. HP 8591EM 9KHZ-1.8GHz Spectrum Analyzer (S/N:73412A00110) D. Shielded Room (MLT-SR1) Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 11/25 Technology Lab 2.3 Test Configuration:

Front View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 12/25 Technology Lab Rear View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 13/25 Technology Lab 2.4 Test condition:

EUT tested in accordance with the specifications given by the manufacturer , and exercised in the most unfavorable manner. 2.5 Conducted Emissions Limits:

Frequency range (MHz) Limits (dBuV) Report Number: MLT0007P15002 FCC ID: MCLT6098U 0

. 4 5 t o 3 0 4 7

. 9 MAX LIGHT MEASUREMENT REPORT Page: 14/25 Technology Lab 2.6 Measurement Data Of Conducted Emissions:

2.6.1 Use Linear AC adapter:

The following table show a summary of the highest emissions of power line conducted emissions to the HOT and NATURAL conductor of the EUT power. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Power Line Conducted Emissions (Class B) Conductor Frequency

(MHz) Peak Amplitude

(dBuV) Limits

(dBuV) L1 L2 Notes :

1.L1: One end & Ground L2: The other end & Ground 2.Height of table on which the EUT was placed : 0.8 m. 3.The above test results are obtained under the normal condition. Report Number: MLT0007P15002 FCC ID: MCLT6098U 0

. 5 6 3 4

. 7 8 4 7

. 9 0

. 9 8 3 2

. 1 1 4 7

. 9 1

. 9 9 3 0

. 6 3 4 7

. 9 3

. 6 4 3 4

. 4 2 4 7

. 9 9

. 7 6 3 6

. 1 0 4 7

. 9 1 1

. 4 3 3 2

. 1 7 4 7

. 9 2 3

. 6 5 3 4

. 4 9 4 7

. 9 0

. 5 6 3 2

. 1 6 4 7

. 9 0

. 9 8 3 3

. 7 6 4 7

. 9 1

. 9 9 3 2

. 4 8 4 7

. 9 3

. 6 4 3 2

. 1 2 4 7

. 9 9

. 7 6 3 3

. 9 7 4 7

. 9 1 1

. 4 3 3 4

. 2 1 4 7

. 9 2 3

. 6 5 3 2

. 5 4 4 7

. 9 MAX LIGHT MEASUREMENT REPORT Page: 15/25 Technology Lab 2.6.1 Use Switch AC adapter:

The following table show a summary of the highest emissions of power line conducted emissions to the HOT and NATURAL conductor of the EUT power. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Power Line Conducted Emissions (Class B) Conductor Frequency

(MHz) Peak Amplitude

(dBuV) Limits

(dBuV) L1 L2 Notes :

1.L1: One end & Ground L2: The other end & Ground 2.Height of table on which the EUT was placed : 0.8 m. 3.The above test results are obtained under the normal condition. Report Number: MLT0007P15002 FCC ID: MCLT6098U 0

. 6 9 3 9

. 5 7 4 7

. 9 0

. 9 0 3 9

. 1 6 4 7

. 9 1

. 0 8 4 1

. 1 9 4 7

. 9 1

. 2 7 4 0

. 4 3 4 7

. 9 1

. 4 5 3 9

. 8 8 4 7

. 9 4

. 7 6 3 8

. 1 6 4 7

. 9 1 1

. 5 6 3 2

. 2 8 4 7

. 9 0

. 6 9 4 0

. 3 4 4 7

. 9 0

. 7 6 3 9

. 3 7 4 7

. 9 1

. 0 8 4 0

. 7 6 4 7

. 9 1

. 2 7 3 9

. 1 2 4 7

. 9 1

. 4 5 3 9

. 7 6 4 7

. 9 4

. 7 6 3 9

. 6 5 4 7

. 9 1 1

. 5 6 3 4

. 1 8 4 7

. 9 MAX LIGHT MEASUREMENT REPORT Page: 16/25 Technology Lab III. Radiated Emissions Requirements 3.1 General & Setup :

Prior to open-field testing, the EUT was placed in a shielded enclosure and scanned at a close distance to determine its emission characteristics. The physical arrangement of the EUT was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude, directivity, and frequency. The exact system configuration which produced the highest emissions was noted so it could be reproduced later during the open-field tests. This was done to ensure that the final measurements would demonstrate the worst-case interference potential of the EUT. Final radiation measurements were made on a three-meter, open-field test site. The EUT system was placed on a nonconductive turntable which is 0.8 meters height, top surface 1.0 x 1.5 meter. The spectrum was examined from 30 MHz to 1000 MHz using an Hewlett Packard 8591EM Spectrum Analyzer, EMCO Biconical Antenna (Model 3142) for 30-1000MHz. At each frequency, the EUT was rotated 360 degrees, and the antenna was raised and lowered from one to four meters to find the maximum emission levels. Measurements were taken using both horizontal and vertical antenna polarization. Appropriate preamplifiers were used for improving sensitivity and precautions were taken to avoid overloading or desensitizing the spectrum analyzer. No post-detector video filters were used in the test. The spectrum analyzer's 6 dB bandwidth was set to 120 KHz, and the analyzer was operated in the quasi-peak detection mode. The highest emission amplitudes relative to the appropriate limit were measured and recorded in paragraph 3.6. 3.2 Test Equipment List:

A. HP 8591EM 9KHz-1.8GHz Spectrum Analyzer (S/N:73412A00230) B. HP 8447D Pre Amplifier (S/N:2944A08954) C. EMCO 3142 Biconilog Antenna (S/N:1184) D. HP 8590A 10KHz-1.5GHz Spectrum Analyzer (S/N:5212A000211) Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 17/25 Technology Lab 3.3 Test Configuration:

Front View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 18/25 Technology Lab Rear View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 19/25 Technology Lab 3.4 Test condition:

EUT tested in accordance with the specifications given by the manufacturer , and exercised in the most unfavorable manner. 3.5 Radiated Emissions Limits:

Frequency range (MHz) Peak(dBuV) Report Number: MLT0007P15002 FCC ID: MCLT6098U 3 0 t o 8 8 4 0 8 8 t o 2 1 6 4 3

. 5 2 1 6 t o 9 6 0 4 6 A b o v e 9 6 0 5 4 MAX LIGHT MEASUREMENT REPORT Page: 20/25 Technology Lab 3.6 Measurement Data Of Radiated Emissions:

3.6.1 Open Field Radiated Emissions (HORIZONTAL)

(Use Linear AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION.

: T60H098.04

: USB Cable Modem Frequency

(MHz) Radiated Emissions (HORIZONTAL) Amplitude Limits(Class B)

(dBuV/m)

(dBuV/m)

(Degree) Ant.

(m) Table Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 5 3 1

. 5 6 1

. 5 3 1 0 4 0

-

8

. 4 4 6 9

. 1 5 3 0

. 8 3 1

. 5 3 3 0 4 0

-

9

. 1 7 8 6

. 6 2 3 3

. 5 2 2 3 0 0 4 0

-

6

. 4 8 8 6

. 8 8 3 2

. 4 4 2

. 5 2 0 0 4 0

-

7

. 5 6 1 4 1

. 2 3 3 5

. 3 2 1 3 6 0 4 3

. 5

-

8

. 1 8 1 4 8

. 3 0 3 3

. 9 8 2

. 5 3 3 0 4 3

. 5

-

9

. 5 2 1 5 3

. 6 8 3 5

. 8 7 1 2 1 0 4 3

. 5

-

7

. 6 3 2 1 2

. 4 5 3 4

. 1 2 2 2 6 0 4 6

-

1 1

. 8 8 2 4 5

. 8 7 3 6

. 4 3 2

. 5 3 6 0 4 6

-

9

. 5 7 2 7 6

. 4 3 3 7

. 5 4 2 3 0 0 4 6

-

8

. 4 6 3 1 2

. 9 4 3 5

. 2 3 2 3 1 0 4 6

-

1 0

. 7 7 MAX LIGHT MEASUREMENT REPORT Page: 21/25 Technology Lab 3.6.2 Open Field Radiated Emissions (VERTICAL)

(Use Linear AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Radiated Emissions (VERTICAL) Frequency

(MHz) Amplitude

(dBuV/m) Ant.

(m) Table Limits(Class B)

(Degree)

(dBuV/m) Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 5 3 5

. 2 3 1

. 5 3 6 0 4 0

-

4

. 7 7 6 9

. 1 5 3 3

. 4 7 1 2 0 0 4 0

-

6

. 5 3 8 6

. 6 2 3 5

. 1 8 2

. 5 3 4 0 4 0

-

4

. 8 2 8 6

. 8 8 3 3

. 5 4 1 2 1 0 4 0

-

6

. 4 6 1 4 1

. 2 3 3 5

. 7 6 1

. 5 2 7 0 4 3

. 5

-

7

. 7 4 1 4 8

. 3 0 3 4

. 1 9 1

. 5 3 6 0 4 3

. 5

-

9

. 3 1 1 5 3

. 6 8 3 5

. 2 1 1 3 0 0 4 3

. 5

-

8

. 2 9 2 1 2

. 4 5 3 4

. 5 6 2 3 2 0 4 6

-

1 1

. 4 4 2 4 5

. 8 7 3 5

. 2 8 1 2 5 0 4 6

-

1 0

. 7 2 2 7 6

. 4 3 3 6

. 7 5 1

. 5 2 1 0 4 6

-

9

. 2 5 3 1 2

. 9 4 3 2

. 1 8 1

. 5 3 6 0 4 6

-

1 3

. 8 2 MAX LIGHT MEASUREMENT REPORT Page: 22/25 Technology Lab 3.6.3 Open Field Radiated Emissions (HORIZONTAL)

(Use Switch AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION.

: T60H098.04

: USB Cable Modem Frequency

(MHz) Radiated Emissions (HORIZONTAL) Limits(Class B) Amplitude

(dBuV/m)

(dBuV/m)

(Degree) Ant.

(m) Table Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 6 3 2

. 9 9 2

. 5 3 2 0 4 0

-

7

. 0 1 6 9

. 1 5 3 4

. 6 5 1 2 3 0 4 0

-

5

. 3 5 7 3

. 4 6 3 2

. 3 4 2

. 5 3 6 0 4 0

-

7

. 6 6 8 6

. 8 8 3 2

. 2 1 2 2 8 0 4 0

-

7

. 7 9 1 2 1

. 9 3 3 6

. 9 8 1 3 1 0 4 3

. 5

-

6

. 5 2 1 4 1

. 2 3 3 8

. 9 9 2

. 5 3 6 0 4 3

. 5

-

4

. 5 1 1 5 3

. 6 8 3 7

. 0 3 1

. 5 2 7 0 4 3

. 5

-

6

. 4 7 2 1 0

. 3 8 3 7

. 4 5 2 2 0 0 4 3

. 5

-

6

. 0 5 2 2 5

. 3 0 3 6

. 3 2 2 3 1 0 4 6

-

9

. 6 8 2 7 6

. 4 3 3 7

. 2 1 1

. 5 3 6 0 4 6

-

8

. 7 9 3 1 2

. 9 4 3 9

. 3 4 1

. 5 3 1 0 4 6

-

6

. 6 6 MAX LIGHT MEASUREMENT REPORT Page: 23/25 Technology Lab 3.6.2 Open Field Radiated Emissions (VERTICAL)

(Use Switch AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Radiated Emissions (VERTICAL) Frequency

(MHz) Amplitude

(dBuV/m) Ant.

(m) Table Limits(Class B)

(Degree)

(dBuV/m) Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 6 3 5

. 9 5 1

. 5 3 0 0 4 0

-

4

. 0 5 6 9

. 1 5 3 4

. 1 5 1

. 5 2 7 0 4 0

-

5

. 8 5 7 3

. 4 6 3 3

. 2 9 2 3 0 0 4 0

-

6

. 7 1 8 6

. 8 8 3 4

. 7 8 2 2 9 0 4 0

-

5

. 2 2 1 2 1

. 9 3 3 7

. 4 5 1 3 0 0 4 3

. 5

-

6

. 0 5 1 4 1

. 2 3 3 8

. 2 1 1

. 5 2 6 0 4 3

. 5

-

5

. 2 9 1 5 3

. 6 8 3 6

. 7 3 1

. 5 3 5 0 4 3

. 5

-

6

. 7 7 2 1 0

. 3 8 3 6

. 3 2 1

. 5 2 2 0 4 3

. 5

-

7

. 1 8 2 2 5

. 3 0 3 4

. 1 5 1 3 6 0 4 6

-

1 1

. 8 5 2 7 6

. 4 3 3 6

. 9 8 2 2 9 0 4 6

-

9

. 0 2 3 1 2

. 9 4 3 8

. 1 2 1

. 5 3 0 0 4 6

-

7

. 8 8 MAX LIGHT MEASUREMENT REPORT Page: 24/25 Technology Lab Appendix I- EUT Test SETUP MEASUREMENT OF POWER LINE CONDUCTED RFI VOLTAGE EUT 0.8M 0.8M Metal floor surfaced with 30mm of insulating material LISN Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 25/25 Technology Lab Appendix I- EUT Test SETUP MEASUREMENT OF RADIATED EMISSION 4.0M 3.0M Antenna Tower Receiver Antenna EUT 0.8M Ground Plane 0000 RF Test Receiver Report Number: MLT0007P15002 FCC ID: MCLT6098U

 

 

PJ1 1 3 PJ/SDJ-2014/MCNDCP-20 2 D C B A 1 2 3 4 5 6 2L111 2 1 1 L111 L/MLB-201209-0120L-N2 1 1 2 2L113 1 L113 L/MLB-201209-0120L-N2 1 1 C156 C/104K/16V/X7R/0603 C157 C/104K/16V/X7R/0603 C159 C158 C/104K/16V/X7R/0603 C/103K/50V/X7R/0603 2 2 2 2 2L110 2AC1 1 D105 2

+9V

+9V

+

2 C107 C/220U/35V/MCA10/5 D/MBRS330/SMC 1 1 1 C160 C/105K/10V/X7R/0805 C118 C/104K/16V/X7R/0603 2 2 2 1

+

L114 L/MLB-201209-0120L-N2 2 2L114 1 C117 C/470U/35V/MCA12.5/5 R105 R/1K/0603/5%

2 2 L110 L/MLB-201209-0120L-N2 1 2 2L112 L112 L/MLB-201209-0120L-N2 1 2 2 2 2 1 3 2 Q101 Q/2N3904/SOT-23 1 1 4 D101 2 1 2D101 D/LS4148/SOD-80 2 3 5 6 7 U105 U/NDS9435A/SO-8 C104 1 C/105K/16V/X7R/1206 2 U101 C109 1 2SCP 5 C C V SCP VO C/105K/10V/X7R/0805 R107 1 2C103 R/56K/0603/5%

6 C103 1 C/104K/16V/X7R/0603 R106 2R106 2 R/43K/0603/5%

7 COMP FB D N G 8 8 2 1 2D104 1 L101 L/SDB1105-680K/MLD10F 2

+3.3V_DIG

+3.3V_DIG D104 D/MBRS330/SMC 1 2

+ C106 C/47U/16V/M/D 1 2

+ C112 C/47U/16V/M/D R101 R/23.2K/0805/1%

1 2 1 3 2VO 1 2COMP R103 2 2 R/10K/0603/5%

C 1 0 1 1 C101 C/103K/50V/X7R/0603 4 2FB 2 U/TL5001CDR/SO-8 1 1 C105 C/104K/16V/X7R/0603 R104 R/10K/0603/1%

2 2

+9V 1 L115 L/MLB-201209-0120L-N2 2 2L115 U104 U/LM3940IS-3.3/TO-263 D N G T U O N I 1 2 3

+3.3V_PHY

+3.3V_PHY 1 2 1 1 1 1 C151 C/106K/10V/X5R/1210 C152 C/474K/16V/X7R/0805 C153 C/104K/16V/X7R/0603 C154 C/106K/10V/X5R/1210 C155 C/104K/16V/X7R/0603 2 2 2 2

+9V 1 L116 L/MLB-201209-0120L-N2 2 2L116 1 C113 C/106K/16V/X7R/1812 C114 C/104K/16V/X7R/0603 2 1 2 C:\TEMP\POWER-B.SCH 1 2 U103 U/MC7805C/TO-263 D N G T U O N I 1 2 3 1 2 3

+5V_DS

+5V_DS 1 C115 C/106K/10V/X5R/1210 C116 C/475Z/10V/Y5V/0805 2 AGND 2-Aug-2000 13:12:06 4 5 Title Doc.No. View AMBIT REVRev. Note S1 Page 7 2

-

SCHEMATIC T60H098.04 John Huang Prepared Checked Approved 6 D C B A 1 2C202 1 2 1 1 1 1 1 1 1 1 1 1 2 3 4 1 1 1 1 1 5 C202 C/106K/10V/X5R/1210 C203 C/106K/10V/X5R/1210 C204 C/106K/10V/X5R/1210 C205 C/104K/16V/X7R/0603 C206 C/104K/16V/X7R/0603 C207 C/104K/16V/X7R/0603 C208 C/104K/16V/X7R/0603 C209 C/104K/16V/X7R/0603 C210 C/104K/16V/X7R/0603 C211 C/104K/16V/X7R/0603 C212 C/104K/16V/X7R/0603 C213 C/104K/16V/X7R/0603 C214 C/104K/16V/X7R/0603 C215 C/104K/16V/X7R/0603 C216 C/104K/16V/X7R/0603 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 8 1 W 7 1 Y 8 1 Y 7 E 5 A 3 A F E R V F E R R D D V _ S A B I D D V _ X D D V _ 1 L L P D D V _ 2 L L P PLL2 PLL1 X BIAS RREF VREF SD_DQ[0]

SD_DQ[1]

SD_DQ[2]

SD_DQ[3]

SD_DQ[4]

SD_DQ[5]

SD_DQ[6]

SD_DQ[7]

SD_DQ[8]

SD_DQ[9]

SD_DQ[10]

SD_DQ[11]

SD_DQ[12]

SD_DQ[13]

SD_DQ[14]

SD_DQ[15]

SD_A[0]

SD_A[1]

SD_A[2]

SD_A[3]

SD_A[4]

SD_A[5]

SD_A[6]

SD_A[7]

SD_A[8]

SD_A[9]

SD_A[10]

SD_A[11]

SD_CLK SD_CKE SD_WE_N SD_CAS_N SD_RAS_N SD_CS_N SD_LDQM SD_UDQM SD_BSA[0]

SD_BSA[1]

PCI_AD[0]

PCI_AD[1]

PCI_AD[2]

PCI_AD[3]

PCI_AD[4]

PCI_AD[5]

PCI_AD[6]

PCI_AD[7]

PCI_AD[8]

PCI_AD[9]

PCI_AD[10]

PCI_AD[11]

PCI_AD[12]

PCI_AD[13]

PCI_AD[14]

PCI_AD[15]

PCI_AD[16]

PCI_AD[17]

PCI_AD[18]

PCI_AD[19]

PCI_AD[20]

PCI_AD[21]

PCI_AD[22]

PCI_AD[23]

PCI_AD[24]

PCI_AD[25]

PCI_AD[26]

PCI_AD[27]

PCI_AD[28]

PCI_AD[29]

PCI_AD[30]

PCI_AD[31]

PCI_CBE[0]

PCI_CBE[1]

PCI_CBE[2]

PCI_CBE[3]

PCI_RST_N PCI_CLK PCI_INTA_N PCI_GNT_N PCI_REQ_N PCI_IDSEL PCI_FRAME_N PCI_IRDY_N PCI_TRDY_N PCI_DEVSEL_N PCI_STOP_N PCL_PERR_N PCL_PAR 2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 SD_DQ0 C1 SD_DQ1 D1 SD_DQ2 E1 SD_DQ3 F1 SD_DQ4 G1 SD_DQ5 H1 SD_DQ6 J1 SD_DQ7 K1 SD_DQ8 K2 SD_DQ9 J2 SD_DQ10 H2 SD_DQ11 G2 SD_DQ12 F2 SD_DQ13 E2 SD_DQ14 D2 SD_DQ15 C2 SD_A0 R2 SD_A1 U1 SD_A2 T3 SD_A3 V1 SD_A4 U2 SD_A5 T2 SD_A6 R3 SD_A7 P3 SD_A8 P2 SD_A9 N2 SD_A10 T1 M3 SD_A11 SD_CLK N1 SD_CKE M2 SD_WE_N M1 SD_CAS_N L2 SD_RAS_N P1 SD_CS_N L3 SD_LDQM L1 SD_UDQM K3 SD_BSA0 N3 R1 SD_BSA1 T14 V15 U14 V14 W16 W15 T13 U13 W14 W13 U12 V12 W12 T12 Y12 T11 U9 W9 W8 W7 V8 U8 T8 W6 T7 W5 W4 V6 U6 T6 V5 V4 V13 U11 V9 U7 U4 U5 V3 W2 W3 V7 W10 Y11 U10 V10 T10 W11 V11 L/HF70ACB453215-T/1812A FB201 C201 C/106K/10V/X5R/1210 L201 2 L/NL252018T-100J/ML1008 1 1 2 1

+3.3V_DIG 1 C217 C/106K/10V/X5R/1210 C218 C/104K/16V/X7R/0603 2 1 2 2 1 R201 R/1.24K/0603/1%

1

+3.3V_DIG 1 L202 L/NL252018T-100J/ML1008 C228 C/105K/10V/X7R/0805 2 1 1 C229 C/102J/50V/NPO/0603 U201 4 1 7 2 1 3 9 3 4 9 4 D C219 C/106K/10V/X5R/1210 2 2 2 2 C220 C/104K/16V/X7R/0603 1 L203 L/NL252018T-100J/ML1008 2 1 1 C221 C/106K/10V/X5R/1210 C222 C/104K/16V/X7R/0603 2 2 1 L204 L/NL252018T-100J/ML1008 2 1 1 C223 C/106K/10V/X5R/1210 C224 C/104K/16V/X7R/0603 2 2 SD_A0 SD_A1 SD_A2 SD_A3 SD_A4 SD_A5 SD_A6 SD_A7 SD_A8 SD_A9 SD_A10 SD_A11 23 24 25 26 29 30 31 32 33 34 22 35 21 20 39 15 19 18 17 16 37 38 D D V D D V D D V Q D D V Q D D V Q D D V Q D D V DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 BA1 BA0 DQMH DQML CS_N RAS_N CAS_N WE_N CKE CLX S G V S G V S G V Q S G V Q S G V Q S G V Q S G V U/W986416CH-8H/TSOP-54 8 2 1 4 4 5 6 2 1 6 4 2 5

+3.3V_DIG 2 1 PULL_H R212 R/1K/0603/5%

1 C263 C/104K/16V/X7R/0603 1 1 C265 C/104K/16V/X7R/0603

+3.3V_DIG 1 C262 C/104K/16V/X7R/0603 2 C264 C/104K/16V/X7R/0603 2 2 2 C266 C/104K/16V/X7R/0603 C 1 1 C261 C/104K/16V/X7R/0603 1 C260 C/104K/16V/X7R/0603 2 2 2 PCI_RESET_N PCI_RESET_N B 2C250 1 U208 NC CO 4 5 Vss Vdd OUT 3 2 1

+3.3V_DIG 1 R261 R/1K/0603/5%

C251 2 1 2 2C251 C/104K/16V/X7R/0603 2 2Q201 1 3 Q201 Q/2N7002/SOT-23 1 2 R262 R/1K/0603/5%

2 2 R239 R/NC/0603 R217 R/0/0603/5%

1 1 A C284 C/100J/50V/NPO/0603 2 2 C250 C/104K/16V/X7R/0603 U/S-80926/SOT-25 2 C280 1 2C280 2 C/220J/50V/NPO/0603 U210 Y202 Y/16MHz/MO-H49US 1 CLKIN FS2 C281 1 1 2C281 2 NC FS1 C/220J/50V/NPO/0603

+3.3V_DIG 3 GND VDD 1 R281 2 R/1K/0603/5%

2R281 4 1 SS%

CLKOUT U/W180/SO-8

+3.3V_DIG 2 1 L205 1 2L205 L/MLB-201209-0120L-N2 1 1 R282 R/1K/0603/5%

8 7 6 5 C283 C/104K/16V/X7R/0603 2 2 2R282 2 2 R280 2R280 1 R/NC/0603 R283 R/NC/0603 2

+3.3V_DIG 1 1 1 1 A R253 2 R/1K/0603/5%

R250 2 R/1K/0603/5%

R251 2 R/1K/0603/5%

R252 2 R/1K/0603/5%

2 R238 R/NC/0603 1 2R238 2 1 2R235 R235 R/NC/0603 C231 2 2 XTALI E5 XTALI C/220J/50V/NPO/0603 Y201 Y/16MHZ/MO-H49US C232 2 1 XTALO E6 1 1 2 2 C/220J/50V/NPO/0603 T15 1 DES3 R218 R/0/0603/5%

R219 R/0/0603/5%

1 DES56 U16 XTALO DES3EN_N DES56EN_N J4 F4 G5 F5 C3 H5 J5 G4 G3 J3 H3 F3 TRST_N TDI/DINT_N TDO/TPC TMS TCK PCST[0]

PCST[1]

PCST[2]

TPC[2]

PCST2[0]

PCST2[1]

PCST2[2]

2R253 2R250 2R251 2R252 1 1 C238 2 2C238 C/NC/0603 C237 2 C/NC/0603 2C237 D N G _ S A B I D N G _ 1 L L P D N G _ 2 L L P D N G _ X 6 D 4 A 2 A 9 1 Y

+3.3V_DIG 1 1 C225 C/104K/16V/X7R/0603 1 C227 C/106K/10V/X5R/1210 2

+3.3V_DIG C226 C/225K/16V/X7R/1206 R5 R4 R/0/0603/5%

R/0/0603/5%

A18 U202 1 1 2 2 C267 1 2

+3.3V_DIG C/104K/16V/X7R/0603 2 3 7 A 5 1 A 7 1 A 9 1 A 0 2 B 0 2 D 5 N 5 R 0 2 R 0 2 U 0 2 W 2 Y 4 Y 6 Y 8 Y 9 Y 3 1 Y 5 1 Y 5 T 9 T 0 1 Y 7 1 W 1 A D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V W N _ D D V W N _ D D V W N _ D D V W N _ D D V W N _ D D V 2 2 4 D W N _ Q D D I U203 D0 D1 D2 D3 D4 D5 D6 D7 13 14 15 17 18 19 20 21 D8 D9 D10 D11 D12 D13 D14 D15

+3.3V_DIG A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 2 A20 2 A21 R6 R7 1 R12 25 24 23 22 21 20 19 18 8 7 6 5 4 3 2 1 48 17 16 9 10 R/0/0603/5%

R/0/0603/5%

13 3R12 R/1K/0603/5%

14 11 28 26 1 1 C 2 2 R204 1 R/1K/0603/5%

A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 NC NC NC WE_N OE_N CE_N U/M27W801/PLCC32 3R207 12 RST_N D N G D N G 7 2 6 4 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18'

A19'

12 11 10 9 8 7 6 5 27 26 23 25 4 28 29 3 2 30 31 1 24 22 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 OE_N CE_N 1 1 1 R1 R/0/0603/5%

R208 R2 R/0/0603/5%

R/0/0603/5%

C C V D N G 6 1 D[0]

D[1]

D[2]

D[3]

D[4]

D[5]

D[6]

D[7]

D[8]

D[9]

D[10]

D[11]

D[12]

D[13]

D[14]

D[15]

A[0]

A[1]

A[2]

A[3]

A[4]

A[5]

A[6]

A[7]

A[8]

A[9]

A[10]

A[11]

A[12]

A[13]

A[14]

A[15]

A[16]

A[17]

A[18]

A[19]

A[20]

A[21]

A[22]

A[23]

H18 G19 H19 J17 J18 J19 J16 J20 K16 K17 K18 K19 L16 L18 L17 K20 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 L19 L20 M16 M18 M17 M19 N19 P19 N18 N17 N16 R19 P18 P17 P16 T19 U19 R18 R17 R16 T18 U18 V19 T17 2 2 8 1 A 9 1 A R O M 2 _ C S _ N 1 1 R3

+3.3V_DIG 2 R/0/0603/5%

R214 1 2 FLASH_CS_N R/NC 0/0603/5%

R213 R215 2 1 R/NC 0/0603/5%

R/0/0603/5%

2 1 R207 2 R/1K/0603/5%

R8 R/0/0603/5%

1 R209 2 R/4.7K/0603/5%

1 N _ T E S E R _ I C P 2 6

+3.3V_DIG 2 1 C268 C/104K/16V/X7R/0603 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 R202 1 2STS 2 A20 R/0/0603/5%

7 3 C C V U204 29 31 33 35 38 40 42 44 30 32 34 36 39 41 43 45 15 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15/A-1 RY/BY_N

+3.3V_DIG BYTE_N 47 2_BYTE_N R205 1 2 R/1K/0603/5%

U/TE28F160B3-90/TSOP48

+3.3V_DIG 1 2 R271 2 1 R211 2 R/NC 4.7K/0603/5%

1 R/4.7K/0603/5%

R210 R/4.7K/0603/5%

D..15:0 A..23:0 MACREG_CS_N MACSRAM_CS_N MACREG_CS_N MACSRAM_CS_N TS_N TA_N TEA_N R/W_N TSIZ0 TSIZ1 TS_N TA_N R/W_N TSIZ0 TSIZ1 EBI_RESET_N EBI_RESET_N USB_RXP USB_RXN USB_RXD USB_TXP USB_TXN USB_OE_N USB_SUSPEND USB_RDY USB_RXP USB_RXN USB_RXD USB_TXP USB_TXN USB_OE_N USB_SUSPEND USB_RDY MII_TXCLK MII_TXEN MII_TXD0 MII_TXD1 MII_TXD2 MII_TXD3 MII_TXER MII_CRS MII_COL MII_RXCLK MII_RXDV MII_RXD0 MII_RXD1 MII_RXD2 MII_RXD3 MII_RXER MII_MDC MII_MDIO MII_TXCLK MII_TXEN MII_TXD0 MII_TXD1 MII_TXD2 MII_TXD3 MII_TXER MII_CRS MII_COL MII_RXCLK MII_RXDV MII_RXD0 MII_RXD1 MII_RXD2 MII_RXD3 MII_RXER MII_MDC MII_MDIO TICK_CLK TICK_CLK D C B A 2 R237 R/33/0603/5%

1

+3.3V_DIG R234 R/33/0603/5%

2R237 1 2 R224 R/33/0603/5%

EBI_CLK01 R220 R/10K/0603/5%

1 2 1 2 2C234 1 2 C234C/NC/0603 R228R/NC/0603 MAC_IRQ_N UART0_TXD UART0_RXD CS_BOOT_N/CS_N[0]

CS_N[1]

CS_N[2]

CS_N[3]

CS_N[4]

CS_N[5]

CS_N0 CS_N1 F18 G17 G18 E19 F19 H16 RO_N WR_N TS_N TA_N TEA_N R/W_N TSIZ[0]/BS_N[0]

TSIZ[1]/BS_N[1]

EBI_RESET_N EBI_CLK USB_RXP USB_RXN USB_RXD USB_TXP USB_TXN USB_QE_N USB_SUSPEND USB_RDY MII_TXCLK MII_TXEN MII_TXD[0]

MII_TXD[1]

MII_TXD[2]

MII_TXD[3]

MII_TXER MII_CRS MII_COL MII_RXCLK MII_RXDV MII_RXD[0]

MII_RXD[1]

MII_RXD[2]

MII_RXD[3]

MII_RXER MII_MDC MII_MDIO TDM_DU TDM_DD TDM_FSA TDM_DCL TRC_CLK EBI_BSIZE[0]/TERM_CNT/UART1_RI/GPIOA[0]

EBI_BG_N/EXT_DACK[18]/UART1_CTS/GPIOA[1]

EBI_BSIZE[1]/UART1_DCD/GPIOA[2]

EXT_IRQ[2]/EBI_BSIZE[2]/UART1_DSR/GPIOA[3]

EXT_IRQ[3]/EBI_BURST/UART1_DTR/GPIOA[4]

EBI_TSIZE/EXT_DACK[17]/UART1_RTS/GPIOA[5]

EBI_BB/EXT_DREQ[18]/UART1_TXD/GPIOA[6]

EBI_BR_N/EXT_DREQ[17]/UART1_RXD/GPIOA[7]

EBI_CS_N[6]/UART0_RI/GPIOB[0]

UART0_CTS/GPIOB[1]

EBI_CS_N[7]/UART0_DCD/GPIOB[2]

EBI_INT_CS_N/UART0_DSR/GPIOB[3]

EBI_RETRY/UART0_DTR/GPIOB[4]

UART0_RTS/GPIOB[5]

EXT_IRQ[0]/GPIOB[6]

EXT_IRQ[1]/GPIOB[7]

UART0_TXD UART0_RXD SCANMODE BYPASS_PLL SYS_TEST_CLK G16 D19 E16 F17 E18 F16 D16 D17 B19 H17 D12 C12 E12 A11 B11 A10 C11 D11 E11 C10 D10 E10 A9 E9 B9 E8 B6 B10 C9 D9 B8 B7 C8 D8 B5 C7 H4 K5 K4 L5 C18 B18 C17 C16 E15 D15 C15 B17 B16 E14 D14 C14 B15 E13 D13 C13 B14 B12 B13 W1 D7 C6 RD_N WR_N 1 2

+3.3V_DIG 1 2R236 R236 2 R/NC/0603 1 2 3 4 5 C:\TEMP\CPU_MEM.SCH 2-Aug-2000 13:12:08 D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G U/BCM3310/PBGA-20X20 6 A 6 1 A 8 1 A 0 2 A 1 B 0 2 C 5 M 5 P 0 2 T 0 2 V 1 Y 3 Y 5 Y 7 Y 4 1 Y 6 1 Y 0 2 Y 9 J 0 1 J 1 1 J 2 1 J 9 K 0 1 K 1 1 K 2 1 K 9 L 0 1 L 1 1 L 2 1 L 9 M 0 1 M 1 1 M 2 1 M Title Doc.No. View AMBIT REVRev. Note S1 Page 7 3

-

SCHEMATIC T60H098.04 John Huang Prepared Checked Approved 6 1 2 3 4 5 6 UART0_TXD UART0_TXD UART0_RXD UART0_RXD U/S_LED_N U/S_LED_N ENET_ACT_N PCI_RESET_N 3300_GPIO3 PCI_RESET_N 3300_GPIO3 3300_GPIO0 3300_GPIO2 3300_GPIO1 3300_GPIO0 3300_GPIO2 3300_GPIO1 D C B A 2 2 R301 R/4.7k/0603/5%

1 UART0_RTS_N 1 UART0_DTR_N R302 R/4.7k/0603/5%

+3.3V_DIG C301 2 1 4V+

C/474K/16V/X7R/0805 UART(CHANNEL 0) JP303 J/1701S-116-05G2 12345 4T1OUT 4R1IN 4V-

1 C302 2 C/474K/16V/X7R/0805 7 8 9 10 11 12 13 14 23 1 3 28 2 6 U301 T1IN T2IN T3IN R1OUT R2OUT R3OUT R4OUT R5OUT T1OUT T2OUT T3OUT R1IN R2IN R3IN R4IN R5IN SHUTDOWN V-

V+

VCC C3+

C2+

C1+

GND GND C3-

C2-

C1-

U/DS14C335/SSOP-28 22 21 20 19 18 17 16 15 25 5 27 26 4 24 4C1+

4C2+

4C3+

1 1 1 C303 2 4C1-

C/474K/16V/X7R/0805 C304 2 4C2-

C/474K/16V/X7R/0805 C305 2 4C3-

C/474K/16V/X7R/0805

+3.3V_DIG 1 2 C313 C/104K/16V/X7R/0603 1 2 C315 C/104K/16V/X7R/0603

( TEST_LED )

( D/S_LED )

( SYNC_LED )

( RDY_LED ) U302 1A 1Y 2A 2Y 3A 3Y GND 1 2 3 4 5 6 7

+3.3V_DIG 14 VCC 13 12 11 10 9 8 6A 6Y 5A 5Y 4A 4Y U/74HC04/SO-14 3LED3 3LED4 3LED5 3LED6 3LED7 3LED8 2 1 2 2 2 2 2 D302 3LED_P2 1 1 R303 2 R/300/0603/5%

D/LMA316B/G D303 3LED_P3 2 1 D/LMA316B/G R304 2 R/300/0603/5%

D304 3LED_P4 1 1 D/LMA316B/G D305 3LED_P5 1 D/LMA316B/Y D306 3LED_P6 1 D/LMA316B/G D307 3LED_P7 1 D/LMA316B/G D308 3LED_P8 1 1 1 1 1 D/LMA316B/G R305 2 R/300/0603/5%

R306 2 R/300/0603/5%

R307 2 R/300/0603/5%

R308 2 R/300/0603/5%

R309 2 R/300/0603/5%

+3.3V_DIG U/S Transmit(U/S) Ethernet OK/Active(ENET) Power(PWR) Test In-Progress(TEST) D/S Receive(D/S) QAM & FEC & TRC Lock(SYNC) CM Ranged & Registered(RDY) D C B A 1 2 3 4 5 C:\TEMP\DUAL_RS2.SCH 2-Aug-2000 13:12:11 Title Doc.No. View AMBIT REVRev. Note S1 Page 7 4

-

SCHEMATIC T60H098.04 John Huang Prepared Checked Approved 6 1 2

+3.3V_DIG 1 2 1 1 C416 C/475Z/10V/Y5V/0805 08.0305.01 2 C415 C/475Z/10V/Y5V/0805 08.0305.01 2 C414 C/475Z/10V/Y5V/0805 08.0305.01 3 1 2 4 1 2 1 2 C406 C/104K/16V/X7R/0603 C405 C/104K/16V/X7R/0603 5 6 1 C408 C/104K/16V/X7R/0603 C407 C/104K/16V/X7R/0603 2 D401 3 2 D/LTL-907LK/SOT-23 D403 3 2 D/LTL-907LK/SOT-23

+3.3V_DIG 1 1 R405 R/24.9/0603/1%

5C403 R406 R/24.9/0603/1%

2 2 2 2

+3.3V_DIG 2 1 C403 C/104K/16V/X7R/0603 4CT1 1 1 5 7 1 3 RN1C R/75/R-8P4R R419 R/0/0603/5%

C404 C/104K/16V/X7R/0603 RN1D R/75/R-8P4R RN1A R/75/R-8P4R RN1B R/75/R-8P4R 2 2 6 8 2 4 C401 1 2 C401 C/471K/2KV/X7R/1808 R404 1 R/24.9/0603/1%

R403 1 R/24.9/0603/1%

4TD-

4TD+

T C 4 C 1 N R 6 1 5 1 4 1 3 1 2 1 1 1 0 1 9

+

D T

-

D T T C C N T C

-

X T

+

X T C N U401 U/20PMT04/YCL

+

D R

-

D R T C C N T C

-

X R

+

X R C N 1 2 3 4 5 6 7 8 4RD+

4RD-

+3.3V_DIG R420 2 1 R/0/0603/5%

3 R T 4 1 2 RN1D C402 C/NC/0603 1 1 R401 R/49.9/0603/1%

R402 R/49.9/0603/1%

2 2 8 RN1B 7 RJ-6 6 5 4 3 2 1 RN1A RJ-3 RJ-2 RJ-1 J401 TERM8 TERM7 RX-

TERM5 TERM4 RX+

TX-

TX+

J/NC 555153-1/AMP NO COMPONENT ENET_ACT_N ENET_ACT_N MII_MDC MII_MDIO MII_COL MII_CRS MII_RXDV MII_RXER MII_RXD3 MII_RXD2 MII_RXD1 MII_RXD0 MII_RXCLK MII_MDC MII_MDIO MII_COL MII_CRS MII_RXDV MII_RXER MII_RXD3 MII_RXD2 MII_RXD1 MII_RXD0 MII_RXCLK

+3.3V_DIG 1 R418 R/10K/0603/5%

2 EBI_RESET_N

+3.3V_DIG 7 1 6 1 5 1 4 1 3 1 2 1 1 1 0 1 9 8 7 R E _ X R V D _ X R S R C L O C I O D M C D M 2 D D V 3 D N G D E E P S

)

#

3 A D M

(

/

#

D E L _ A L

)

#

2 A D M

(

/

#

D E L _ C U402 6 _ 2 0 4 U 1 D E L 1 1 1 R417 2 R/499/0603/1%

_D401 R408 2 R/49.9K/0603/1%

R409 2 R/499/0603/1%

_D403 18 19 20 21 22 23 24 25 26 27 28 RXD3 RXD2 RXD1 RXD0 GND5 RPTR VDD3 RX_CLK RX_EN GND6 VDD4

+3.3V_DIG 5RX_CLK

+3.3V_DIG U/LSI80225/PLCC-44 K L C _ X T 0 D X T 1 D X T 2 D X T 3 D X T R E _ X T N E _ X T N I _ C S O 4 D N G

#

T E S E R T X E R 9 2 0 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 3 9 3 FD_LED# / (MDA1#) L_LED# / (MDA0#) GND2 TPI-

TPI+

VDD1 TPO-

TPO+

DUPLEX GND1 ANEG 6 5 4 3 2 1 44 43 42 41 40 TPI-

TPI+

+3.3V_DIG

+3.3V_DIG 1 2 C423 C/104K/16V/X7R/0603 3300_XTALOUT 3300_XTALOUT 2 C430 1 1 R411 2 4RESET R/0/0603/5%

MII_TXCLK MII_TXD0 MII_TXD1 MII_TXD2 MII_TXD3 MII_TXER MII_TXEN MII_TXCLK C/NC/0603 MII_TXD0 MII_TXD1 MII_TXD2 MII_TXD3 MII_TXER MII_TXEN I N C S O 4 2 1 4REXT 1 Y401 Y/25MHZ/MO-H49US R410 R/10K/0603/5%

2 USB_RDY USB_TXP USB_TXN USB_OE_N USB_RXD USB_RXP USB_RXN USB_RDY USB_TXP USB_TXN USB_OE_N USB_RXD USB_RXP USB_RXN USB_SUSPEND USB_SUSPEND TP402 1 3 5 7 9 2 4 6 8 10 J/6201S-118-10G2 U403 1 2 3 4 5 6 7 MODE OE#

RCV VP VM SUSPND GND VCC VMO/FSEO VPO D+

D-

SPEED NC 14 13 12 11 10 9 8 U/PDIUSBP11A/TSSOP-14 R415 1 2 R/1.5K/0603/5%

+3.3V_DIG USB_D+

USB_D-

USB_SPEED 1 R416 2 R/10K/0603/5%

1 1 C409 C/104K/16V/X7R/0603 C410 C/106K/10V/X5R/1210 2 2 1 2 C419 C/220J/50V/NPO/0603 1 2 C418 C/220J/50V/NPO/0603

+3.3V_DIG 2 R414 R/1.5K/0603/5%

J402-1 1 J402-2 J402-3 J402-4 1 2 3 4 5 6 J402 VBUS DM DP GND S1 S2 FB401 L/MMZ2012S301A/0805 1 2 J402-5 CON_USB_AMP 1 2 C417 C/104K/16V/X7R/0603 1 1 R412 2 R/24/0603/5%

R413 2 R/24/0603/5%

1 2 3 4 5 C:\TEMP\ETHER-B.SCH 2-Aug-2000 13:21:57 Title Doc.No. View AMBIT REVRev. Note S1 Page 7 5

-

SCHEMATIC T60H098.04 John Huang Prepared Checked Approved 6 D C B A D C B A

+3.3V_DIG 1 L501 2 1 L/NL252018T-100J/ML1008 1 1 BCM3300_AVDD_DIG 1 2 3 4 1 1 1 1 1 1 5 1 1 1 1 1 6 1 2 C502 C/106K/10V/X5R/1210 C503 C/106K/10V/X5R/1210 C504 C/106K/10V/X5R/1210 C505 C/106K/10V/X5R/1210 C506 C/104K/16V/X7R/0603 C507 C/104K/16V/X7R/0603 C508 C/104K/16V/X7R/0603 C509 C/104K/16V/X7R/0603 C510 C/104K/16V/X7R/0603 C511 C/104K/16V/X7R/0603 C512 C/104K/16V/X7R/0603 C513 C/104K/16V/X7R/0603 2 2 2 2 2 2 2 2 2 2 2

+3.3V_DIG 1 1 1 C524 C/104K/16V/X7R/0603 C525 C/225K/16V/X7R/1206 C526 C/106K/10V/X5R/1210 2 2 2 1 Y 3 V 0 1 D 5 1 D 7 1 G 7 1 L 7 1 R 5 1 U 1 1 U 7 U 4 P 4 J 4 E C501 C/106K/10V/X5R/1210 C514 C/104K/16V/X7R/0603 C515 C/104K/16V/X7R/0603 2 2 2

+3.3V_PHY 1 2 L502 L/NL252018T-100J/ML1008 1 1 C516 C/106K/10V/X5R/1210 C517 C/104K/16V/X7R/0603 2 2 D 1 L503 L/NL252018T-100J/ML1008 2 1 1 1 C518 C/106K/10V/X5R/1210 C519 C/104K/16V/X7R/0603 C520 C/104K/16V/X7R/0603 2 2 1 L504 2 L/NL252018T-100J/ML1008 1 1 2 1 C521 C/106K/10V/X5R/1210 C522 C/104K/16V/X7R/0603 C523 C/104K/16V/X7R/0603 2 2 2 1 L505 L/NL252018T-100J/ML1008 2 1 1 C527 C/106K/10V/X5R/1210 C528 C/104K/16V/X7R/0603 2 2 D..15:0 C B A 2 2 R512 R/0/0603/5%

1 1 R513 R/0/0603/5%

5D19 5B20

+3.3V_DIG 1 2 Y501 Y/25MHZ/MO-H49US

+3.3V_DIG 8 2 D D V U501 11 12 13 15 16 17 18 19 D0 D1 D2 D3 D4 D5 D6 D7 ED0 ED1 ED2 ED3 ED4 ED5 ED6 ED7 WE_N OE_N CS_N D N G 4 1 U/NC IS61LV256-8J/SOJ-28

+3.3V_DIG 2 R506 R/10K/0603/5%

1 A..23:0 EBI_CLK01 TS_N R/W_N TSIZ0 TSIZ1 MACSRAM_CS_N MACREG_CS_N TA_N MAC_IRQ_N 2 1 C529 C/220J/50V/NPO/0603 C530 C/220J/50V/NPO/0603 2 1 3300_XTALOUT R530 2 1 R/NC/0603 C540 1 2 C/104K/16V/X7R/0603 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 EA0 EA1 EA2 EA3 EA4 EA5 EA6 EA7 EA8 EA9 EA10 EA11 EA12 EA13 EA14 10 9 8 7 6 5 4 3 25 24 21 23 2 26 1 27 22 20 J501 J/1701S-116-06G2 1 2 3 4 5 6 S4:J501-PI N1 Change

+3.3V_DI G to

+5V_DS

+3.3V_DIG 1 1 1 R520 2 R/1K/0603/5%

R521 2 R/1K/0603/5%

R522 2 R/1K/0603/5%

BCM3300_AVDD_DAC BCM3300_AVDD_DAC_PLL BCM3300_AVDD_ADC BCM3300_AVDD_ADC_PLL D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 T18 W20 U19 R18 V20 T19 U20 P18 T20 P19 N18 N17 R20 N19 P20 N20 L20 K20 K19 K18 J20 J19 J17 H20 G20 H19 F20 H17 H18 E20 G18 F19 D20 E19 C20 F18 EBI_CLK01 TS_N R/W_N MACSRAM_CS_N MACREG_CS_N TA_N MAC_IRQ_N Y20 L19 U18 D19 B20 L18 M20 M18 M17 M19 V18 V19 E2 H4 H3 T4 B5 B6 D8 C8 B8 A6 A8 C9 B9 A9 C10 B10 A10 A11 A18 B16 A17 B15 A16 B14 C13 D13 B13 A14 A13 D12 C12 B12 A12 F2 V1 R3 U2 W1 D1 C4 B2 D5 B3 ED0 ED1 ED2 ED3 ED4 ED5 ED6 ED7 EA0 EA1 EA2 EA3 EA4 EA5 EA6 EA7 EA8 EA9 EA10 EA11 EA12 EA13 EA14 ERAM_OE_N ERAM_WE_N D11 B11 SPI/I2C_N SCL_SCK ADDR0/SS_N ADDR1/MISO SDA/MOSI 2 A 6 C 3 A 7 D 2 G 1 E 2 J 3 J 3 K 3 L 4 D D V A 5 D D V A D 5 D D V A D 6 D D V A 6 D D V A 7 D D V A D 8 D D V A 0 D D V A 1 D D V A D 3 D D V A

/

2 D D V A CPU_DATA[0]

CPU_DATA[1]

CPU_DATA[2]

CPU_DATA[3]

CPU_DATA[4]

CPU_DATA[5]

CPU_DATA[6]

CPU_DATA[7]

CPU_DATA[8]

CPU_DATA[9]

CPU_DATA[10]

CPU_DATA[11]

CPU_DATA[12]

CPU_DATA[13]

CPU_DATA[14]

CPU_DATA[15]

CPU_ADDR[0]

CPU_ADDR[1]

CPU_ADDR[2]

CPU_ADDR[3]

CPU_ADDR[4]

CPU_ADDR[5]

CPU_ADDR[6]

CPU_ADDR[7]

CPU_ADDR[8]

CPU_ADDR[9]

CPU_ADDR[10]

CPU_ADDR[11]

CPU_ADDR[12]

CPU_ADDR[13]

CPU_ADDR[14]

CPU_ADDR[15]

CPU_ADDR[16]

CPU_ADDR[17]

CPU_ADDR[18]

CPU_ADDR[19]

CPU_CLK CPU_AS_N CPU_R/W_N CPU_SIZE[0]

CPU_SIZE[1]

CPU_SRAM_CS_N CPU_REG_CG_N CPU_DTACK_N CPU_IRQ_N CPU_RDCE_N CPU_MODE[0]

CPU_MODE[1]

SYS_RESET_N XTAL_IN XTAL_OUT DES_DIS DS_IF(+) DS_IF(-) DS_AGCI_CTL DS_AGCT_CTL DS_BCLK DS_ADCLK ERAM_DATA[0]

ERAM_DATA[1]

ERAM_DATA[2]

ERAM_DATA[3]

ERAM_DATA[4]

ERAM_DATA[5]

ERAM_DATA[6]

ERAM_DATA[7]

ERAM_ADDR[0]

ERAM_ADDR[1]

ERAM_ADDR[2]

ERAM_ADDR[3]

ERAM_ADDR[4]

ERAM_ADDR[5]

ERAM_ADDR[6]

ERAM_ADDR[7]

ERAM_ADDR[8]

ERAM_ADDR[9]

ERAM_ADDR[10]

ERAM_ADDR[11]

ERAM_ADDR[12]

ERAM_ADDR[13]

ERAM_ADDR[14]

ERAM_OE_N ERAM_WE_N SPI/I2C_N SCL/SCK ADDR0/SS_N ADDR1/MISO SDA/MOSI USE_SPI_I2C JTAG_TMS JTAG_TCK JTAG_TDI JTAG_TDO D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V D D V W N _ D D V W N _ Q D D I U502 SRAM_DATA[0]

SRAM_DATA[1]

SRAM_DATA[2]

SRAM_DATA[3]

SRAM_DATA[4]

SRAM_DATA[5]

SRAM_DATA[6]

SRAM_DATA[7]

SRAM_DATA[8]

SRAM_DATA[9]

SRAM_DATA[10]

SRAM_DATA[11]

SRAM_DATA[12]

SRAM_DATA[13]

SRAM_DATA[14]

SRAM_DATA[15]

SRAM_ADDR[0]

SRAM_ADDR[1]

SRAM_ADDR[2]

SRAM_ADDR[3]

SRAM_ADDR[4]

SRAM_ADDR[5]

SRAM_ADDR[6]

SRAM_ADDR[7]

SRAM_ADDR[8]

SRAM_ADDR[9]

SRAM_ADDR[10]

SRAM_ADDR[11]

SRAM_ADDR[12]

SRAM_ADDR[13]

SRAM_ADDR[14]

SRAM_ADDR[15]

SRAM_ADDR[16]

SRAM_ADDR[17]

SRAM_ADDR[18]

SRAM_BEH_N SRAM_BEL_N SRAM_WE_N SRAM_OE_N SRAM_CS_N[0]

SRAM_CS_N[1]

SRAM_CS_N[2]

SRAM_CS_N[3]

RFT_CLK RFT_DATA RFT_CS[0]

RFT_CS[1]

US_RF(+) US_RF(-) US_OE US_BURST US_STATUS[0]

US_STATUS[1]

US_STATUS[2]

US_STATUS[3]

US_POWER[0]

US_POWER[1]

US_POWER[2]

US_POWER[3]

US_POWER[4]

US_POWER[5]

TX_ACT_N TICK_CLK_OUT GPIO[0]

GPIO[1]

GPIO[2]

GPIO[3]

GPIO[4]

GPIO[5]

GPIO[6]

GPIO[7]

TEST_POINT[0]

TEST_POINT[1]

TEST_POINT[2]

TEST_POINT[3]

TEST_SEL[0]

TEST_SEL[1]

TEST_SEL[2]

TEST_CLK TEST_BYP TEST_OUT TEST_SCAN_EN PS_CLK PS_ERR PS_SYNC PS_VALID PS_DATA[0]

PS_DATA[1]

PS_DATA[2]

PS_DATA[3]

PS_DATA[4]

PS_DATA[5]

PS_DATA[6]

PS_DATA[7]

US_IBIAS_DAC 2 R501 R/4.7K/0603/5%

2 1 1 R502 R/0/0603/5%

EBI_RESET_N CPU_MODE0 CPU_MODE1 XTAL_IN XTAL_OUT 2 R503 1 DES_DIS R/0/0603/5%

DS_POS DS_NEG RF_AGC TUNER_AGC DS_POS DS_NEG RF_AGC TUNER_AGC 1 5R509 USE_SPI_I2C

+3.3V_DIG 2 JTAG_TMS JTAG_TCK JTAG_BCN3300_TDI R509R/4.7K/0603/5%

2 2 2 2

+3.3V_DIG R514 1 R/10K/0603/5%

R515 1 R/10K/0603/5%

R516 1 R/10K/0603/5%

R517 1 R/10K/0603/5%

12 12 JP501 J/1701S-116-02G2 JP502 J/1701S-116-02G2 0 D N G A 1 D N G A D 5 C 4 B W19 U17 V17 W18 V8 W7 Y5 V7 E3 D2 B1 F3 L1 K1 U1 T2 R1 N2 P1 N1 R2 P3 T1 P2 N3 N4 V2 U3 Y4 W6 W5 Y3 U6 V6 V5 V4 W3 Y2 U4 W2 D3 C2 C3 G4 A1 G3 D4 E18 C19 D18 E17 B18 C17 A20 D16 C16 A19 B17 C15 M2 TUNER_CLK TUNER_DATA TUNER_CS US_POS US_NEG TX_OEN US_BURST US_STATUS0 US_STATUS1 US_STATUS2 US_STATUS3 US_STATUS4 US_STATUS5 US_STATUS6 USAMP_DATA USAMP_CLK USAMP_CS U/S_LED_N TICK_CLK 3300_GPIO0 3300_GPIO1 3300_GPIO2 3300_GPIO3 3300_GPIO4 3300_GPIO5 3300_GPIO6 3300_GPIO7 US_BIAS_DAC 1 2 D N G A 3 D N G A 4 D N G A 6 D 4 A 5 A 5 D N G A D 5 D N G A D 6 D N G A 6 D N G A 7 D N G A D 8 D N G A 9 D N G A 2 H 1 F 1 H 1 G 1 J 2 K 2 L D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G D N G U/BCM3300/TBGA-20X20 1 2 7 B 9 D 4 1 D 8 1 C 7 1 F 9 1 G 7 1 K 7 1 P 6 1 U 2 1 U 8 U 5 U 4 R 3 M 1 M 4 L 4 K 4 F C531 C/102J/50V/NPO/0603 C541 1 2 C/104K/16V/X7R/0603 4 2 8

+3.3V_DIG C542 1 2

+3.3V_DIG C/104K/16V/X7R/0603 4 2 8 SA0 1 SA1 2 SA2 3 SA3 4 SA4 13 SA5 14 SA6 15 SA7 16 SA8 17 SA9 18 SA10 19 SA11 20 SA12 21 SA13 29 SA14 30 SA15 31 SA16 32 12 28 5 D D V D D V U503 6 7 10 11 22 23 26 27 SD8 SD9 SD10 SD11 SD12 SD13 SD14 SD15 D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 WE_N OE_N CS_N D N G D N G 9 5 2 U/IS63LV1024-10J/SOJ-32 SA0 1 SA1 2 SA2 3 SA3 4 SA4 13 SA5 14 SA6 15 SA7 16 SA8 17 SA9 18 SA10 19 SA11 20 SA12 21 SA13 29 SA14 30 SA15 31 SA16 32 12 28 5 D D V D D V U504 6 7 10 11 22 23 26 27 SD0 SD1 SD2 SD3 SD4 SD5 SD6 SD7 D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 WE_N OE_N CS_N D N G D N G 9 5 2 U/IS63LV1024-10J/SOJ-32 V16 Y19 W17 V15 Y18 W16 Y17 W15 U14 V14 Y16 W14 V13 U13 Y15 W13 SD0 SD1 SD2 SD3 SD4 SD5 SD6 SD7 SD8 SD9 SD10 SD11 SD12 SD13 SD14 SD15 SA0 SA1 SA2 SA3 SA4 SA5 SA6 SA7 SA8 SA9 SA10 SA11 SA12 SA13 SA14 SA15 SA16 Y14 Y13 V12 W12 Y12 V11 W11 Y11 Y10 W10 U10 V10 Y9 W9 V9 U9 Y7 W8 Y6 SRAM_WEH_N SRAM_WEL_N SRAM_OE_N SRAM_CS0_N TP381 TESTPOINT TP382 TESTPOINT TP383 TESTPOINT TP384 TESTPOINT TP385 TESTPOINT TP386 TESTPOINT TP387 TESTPOINT TP388 TESTPOINT R511 2 R/5.1K/0603/5%

3300_GPIO0 3300_GPIO1 3300_GPIO2 3300_GPIO3 3300_GPIO4 1 3300_GPIO5 1 3300_GPIO6 1 3300_GPIO7 1 R504 2 R/4.7K/0603/5%

R505 2 R/NC/0603 R507 R/NC/0603 R508 R/NC/0603 2 2

( D/S_LED )

( RDY_LED )

( SYNC_LED )

( TEST_LED ) Title 1 2 3 4 5 C:\TEMP\MAC_PHY.SCH 2-Aug-2000 13:12:17 AMBIT REVRev. Note S1 Page 7 6

-

Doc.No. View Prepared Checked Approved 6 SCHEMATIC T60H098.04 John Huang D C B A TUNER_CLK TUNER_DATA TUNER_CS US_POS US_NEG TX_OEN USAMP_DATA USAMP_CLK USAMP_CS U/S_LED_N TICK_CLK 3300_GPIO0 3300_GPIO1 3300_GPIO2 3300_GPIO3 1 2 3 4 5 6 D C B A USAMP_CS USAMP_CLK 2 2 TX_OEN USAMP_DATA TUNER_CLK TUNER_DATA 2 2 2 2 1 L610 L/MLB-201209-0120L-N2 L611 L/MLB-201209-0120L-N2 1 1 6L610 6L611 1 C651 C/NC 104K/16V/X7R/0603 C650 C/NC 104K/16V/X7R/0603

+5V_DS 2 2 1 2 3 4 5 6 7 0 A 0 B 0 O 1 A 1 B 1 O U602 U/74LVC32/SO-14 D N G C C V 2 A 2 B 2 O 3 A 3 B 3 O 4 1 3 1 2 1 1 1 0 1 9 8 6R614 1 1 6R615 2 R614 R/33/0603/5%

2 R615 R/33/0603/5%

6R6261 1 6R616 2 2 R616 R/33/0603/5%

R626 R/300/0603/5%1 1 1 1 U601 U/PA4937DIS/E-4937D15 GND_RF GND_RF GND_RF GND_RF 19 20 21 22 1 N I _ S U 2 N I _ S U V 5

+

1 S V V 5

+

2 S V F R C G A N E X T P 1 S A V 5

+

3 S V 1 L C S 1 A D S 2 A D S 2 L C S P 2 S A 1 T U O F R 2 T U O F R I F C G A V 5

+

4 S V 1 2 3 4 5 6 7 8 9 0 1 1 1 2 1 3 1 5 1 6 1 7 1 8 1 AS1P 7SCLK1 7SDATA1 6C657 1 L612 L/MLB-201209-0120L-N2 L613 L/MLB-201209-0120L-N2 1 1 6L612 6L613 1 C652 C/NC 104K/16V/X7R/0603 C653 C/NC 104K/16V/X7R/0603 2 2 1 L614 L/MLB-201209-0120L-N2 L615 L/MLB-201209-0120L-N2 1 1 6L614 6L615 1 C655 C/NC 104K/16V/X7R/0603 C654 C/NC 104K/16V/X7R/0603

+5V_DS 2 2 1 R601 2 R/75/0603/5%

C657 C/101J/50V/NPO/0603 C645 C/101J/50V/NPO/0603 C646 C/101J/50V/NPO/0603 C639 C/101J/50V/NPO/0603 2 2 2 2 US_POS US_NEG 1 1 C601 2 7L601 1 C/103K/50V/X7R/0603 1 L601 L/NL252018T-R33J/ML1008 7L602 L602 L/NL252018T-R39J/ML1008 1 7L603 2 1 2 L603 L/NL252018T-R33J/ML1008 2 1 1 1 C609 7L609 1 1 2 US_IN1 C/104K/16V/X7R/0603 C610 C/220J/50V/NPO/0603 C611 C/470J/50V/NPO/0603 C612 C/470J/50V/NPO/0603 C613 C/220J/50V/NPO/0603 R608 R/150/0603/5%

C616 2 7L604 2 1 2 L604 L/NL252018T-R33J/ML1008 7L605 L605 L/NL252018T-R39J/ML1008 7L606 1 2 1 2 2 2 L606 L/NL252018T-R33J/ML1008 2 2 7L617 1 C617 2 US_IN2 C/104K/16V/X7R/0603 C/103K/50V/X7R/0603 1 R610 2 R/75/0603/5%

6R611 6R612 1 1 1 2 R611 R/33/0603/5%

2 R612 R/33/0603/5%

2 R613 R/NC 33/0603/5%

7SCLK2 7SDAT2 AS2P 1 2 3 4 5 6 7 0 A 0 B 0 O 1 A 1 B 1 O U603 U/74LVC32/SO-14 D N G C C V 2 A 2 B 2 O 3 A 3 B 3 O 4 1 3 1 2 1 1 1 0 1 9 8 6L616 6R613

+5V_DS 1 1 2 C640 C/101J/50V/NPO/0603 1 2 C641 C/101J/50V/NPO/0603 2 FB605 L/MMZ2012S301A/0805 1 1 1 C642 C/101J/50V/NPO/0603 1 2 VS1 TUNER_CS 2 L616 L/MLB-201209-0120L-N2 1 1 2 C656 C/NC 104K/16V/X7R/0603

+5V_DS

+5V_DS

+5V_DS 1 1 1 FB601 L/MMZ2012S301A/0805 FB603 L/MMZ2012S301A/0805 FB604 L/MMZ2012S301A/0805 2 2 2 TUNER_AGC 1 R617 2 R/82/0603/5%

RF_AGC 1 R622 2 R/1K/0603/5%

C619 C/104K/16V/X7R/0603 C620 C/104K/16V/X7R/0603 C621 C/106K/10V/X5R/1210 2 2 2 1 1 1 VS2 C622 C/106K/10V/X5R/1210 C623 C/103K/50V/X7R/0603 C624 C/103K/50V/X7R/0603 C625 C/103K/50V/X7R/0603 2 2 2 1 1 C626 C/103K/50V/X7R/0603 C627 C/103K/50V/X7R/0603 C638 C/106K/10V/X5R/1210 2 2 VS4 VS3 1 1 1 C628 C/106K/10V/X5R/1210 C629 C/103K/50V/X7R/0603 C630 C/103K/50V/X7R/0603 C631 C/103K/50V/X7R/0603 2 2 2 7R618 1 R618 2 R/82/0603/5%

7R619 1 R619 2 R/82/0603/5%

1 1 AGCRF 1 C632 C/105K/10V/X7R/0805 C633 C/105K/10V/X7R/0805 C634 C/105K/10V/X7R/0805 2 2 R620 R/NC/0603 7R623 1 R623 2 R/1K/0603/5%

7R624 1 R624 2 1 R/NC 1K/0603/5%

1 2 AGCIF 1 C635 C/104K/16V/X7R/0603 C636 C/104K/16V/X7R/0603 C637 C/104K/16V/X7R/0603 2 2 2 R625 R/1.69K/0603/1%

1 2 1 2 1 2 1 2 1 2 R621 R/1.69K/0603/1%

1 2 1 2 1 1 1 1 L/MMZ2012S301A/0805 C605 C/104K/16V/X7R/0603 C604 C/104K/16V/X7R/0603 C603 C/103K/50V/X7R/0603 C602 C/106K/10V/X5R/1210 2 2 2 R602 R/10K/0603/5%

2 7FB602 1 FB602 2

+3.3V_PHY 7R602 1 1 R603 R/10K/0603/5%

R604 R/10K/0603/5%

1 2 1 1 C606 C/106K/10V/X5R/1210 C607 C/103K/50V/X7R/0603 2 2 1 R605 R/10K/0603/5%

C608 C/104K/16V/X7R/0603 2 2 2 1 1 C643 2 C/105K/10V/X7R/0805 C644 2 C/105K/10V/X7R/0805 DS_POS DS_NEG DS_POS DS_NEG D C B A Title Doc.No. View AMBIT REVRev. Note S1 Page 7 7

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SCHEMATIC T60H098.04 John Huang Prepared Checked Approved 6 1 2 3 4 5 C:\TEMP\TRA_CEIV.SCH 2-Aug-2000 13:12:20

 

 

Product : USB Cable Modem Applicant : AMBIT MICROSYSTEMS CORPORATION. FCC ID : MCLT6098U Model : T60H098.04 Report No. : MLT0007P15002 Test Date : July 25.2000 Test By Max Light Technology Co.,Ltd. Room 5, 8F, No.125, Section 3 Roosevelt Road, Taipei, Taiwan., R.O.C. Tel: 886-2-2363-2447 Fax: 886-2-2363-2597 T T h h e e t t e e s s t t r r e e p p o o r r t t c c o o n n s s i i s s t t s s o o f f 2 2 5 5 p p a a g g e e s s i i n n t t o o t t a a l l

. I I t t m m a a y y b b e e d d u u p p l l i i c c a a t t e e d d c c o o m m p p l l e e t t e e l l y y f f o o r r l l e e g g a a l l u u s s e e w w i i t t h h t t h h e e a a l l l l o o w w a a n n c c e e o o f f t t h h e e a a p p p p l l i i c c a a n n t t

. I I t t s s h h a a l l l l n n o o t t b b e e r r e e p p r r o o d d u u c c e e d d e e x x c c e e p p t t i i n n f f u u l l l l

,

, w w i i t t h h o o u u t t t t h h e e w w r r i i t t t t e e n n a a p p p p r r o o v v a a l l o o f f o o u u r r l l a a b b o o r r a a t t o o r r y y

. MAX LIGHT MEASUREMENT REPORT Page: 2/25 Technology Lab I. General 4. II. Conducted Emissions Requirements 10. III. Radiated Emissions Requirements 16. Appendix I (EUT Test Setup) 24. Appendix II (Model List) 25. Report Number: MLT0007P15002 FCC ID: MCLT6098U T a b l e o f C o n t e n t s

:

MAX LIGHT MEASUREMENT REPORT Page: 3/25 Technology Lab CERTIFICATION We here by verify that :

The test data, data evaluation, test procedures and equipment configurations shown in this report were made in accordance with the procedures given in ANSI C63.4-1992. All test were conducted by MLT(Max Light Technology Co.,Ltd) Room 5, 8F, No.125, Section 3 Roosevelt Road, Taipei, Taiwan, R.O.C Also, we attest to the accuracy of each. We further submit that the energy emitted by the sample EUT tested as described in the report is in compliance with Class B radiated and conducted emission limit of FCC Rules Part 15 Subpart B. EUT Applicant

: USB Cable Modem Manufacturer

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan Model No FCC ID

: T60H098.04

: MCLT6098U Prepared by :

Approved by :

Country Huang Roger Chen Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 4/25 Technology Lab I. GENERAL 1.1 Introduction The following measurement report is submitted on behalf of AMBIT MICROSYSTEMS CORPORATION. In support of a Class B Digital Device certification in accordance with Part2 Subpart J and Part 15 Subpart A And B of the Commissions and Regulations. 1.2 Description of EUT EUT Applicant

: USB Cable Modem Manufacturer

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan

: AMBIT MICROSYSTEMS CORPORATION. 5F-1, 5 Hsin-An Road, Hsinchu Scicnce-Based Industrial Park, Taiwan Model No

: T60H098.04 FCC ID

: MCLT6098U Power Type

: Powered by AC Adaptor ( Linear/10V DC/1.2 Amp) Powered by AC Adaptor ( Switch/10V DC/1.2 Amp) Ethernet Cable

: RJ-45 x1 (Nonshielded, 7.5 long ,Plastic hoods) During testing the EUT was operated at Tx or Rx mode for each emission measured(P.S Run comment in Dos Mode). This was done in order to ensure that maximum emission levels were attained. Ping (IP Address) L 1000 T Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 5/25 Technology Lab 1.3 Description of Support Equipment In order to construct the minimum system which required by the ANSI C63.4-1991, following equipments were used as the support units. Computer Model No. Serial No. FCC ID Keyboard Model No. Serial No. FCC ID Monitor Model No. Serial No. FCC ID Mouse Model No. Serial No. FCC ID Printer Model No. Serial No. FCC ID

: IBM

: 16W

: BNC345M

: FCC DOC

: IBM

: KB-9930

: 09N5395

: FCC DOC

: IBM

: 10L6145 030

: 23-092079

: FCC DOC

: IBM

: 0180-05N

: 23-96142

: EMJMUSJJ

: PANASONIC

: KX-P1080I

: 7CKAKE98933

: ACJ5Z6KX-P10801 Cable Head End : NORTEL Model No. Serial No.

: CMTS1000

: 126D134 Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 6/25 Technology Lab Modem Model No. Serial No. FCC ID

: Askey (External Fax / Data Modem)

: WS1414VE

: IAH-10811

: H8N1414VE Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 7/25 Technology Lab 1.4 Configuration of System Under Test To Cable Head End Power Supply RS-232 Printer Monitor PC Keyboard RS-232 RJ11C Cables EUT Modem USB Cable Mouse To Cable Modem Coaxial Cable(5V-2C) RF Converter Nortel(CMTS1000) System Splitter Cable Modem Head End DHCP Server During testing the EUT(USB Cable Modem ) was connected to the USB port OF IBM PC. So there is no need for additional I/O card. A mouse was connected to the mouse port and a printer was connected to the parallel port. A external modem connected the serial port and the external modem connected with two unterminated telephone cables on the line and phone jack. A coaxial cable(5C-2V) was connected to the F connector of EUT and the coaxial cable(5C-2V) was connected to a simulator of cable modem head end . Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 8/25 Technology Lab Cable Modem Head End Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 9/25 Technology Lab 1.5 Test Procedure All measurements contained in this report were performed according to the techniques described in Measurement procedure ANSI C63.4-1992

"Measurement of unIntentional Radiators."

1.6 General Test Condition The conditions under which the EUT operates were varied to determine their effect on the equipment's emission characteristics. The final configuration of the test system and the mode of operation used during these tests was chosen as that which produced the highest emission levels. However, only those conditions which the EUT was considered likely to encounter in normal use were investigated. The system's radiated and conducted emissions were investigated while the computer alternately transferred data to the EUT (1000 bytes). Run Ping

(IP Address -T comment which sent a continuous stream of 1000 Bytes data to EUT and transferred data to and from the EUT was proven to worst case emissions. The system's physical layout and cabling was randomly arranged to ensure that maximum emission levels were attained. L 1000) Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 10/25 Technology Lab II. Conducted Emissions Requirements 2.1 General & Setup :

The power line conducted emission measurements were performed in a shielded enclosure. The EUT was assembled on a wooden table which is 80 centimeters high, was placed 40 centimeters from the backwall and at least 1 meter from the sidewall. Power was fed to the EUT from the public utility power grid through a line filter and EMCO Model 3825/2 Line Impedance Stabilization Networks

(LISN). The LISN housing, measuring instrumentation case, ground plane, etc., were electrically bonded together at the same RF potential. The Spectrum analyzer was connected to the AC line through an isolation transformer. The 50-ohm output of the LISN was connected to the spectrum analyzer directly. Conducted emission levels were in the CISPER quasi-peak detection mode. The analyzer's 6 dB bandwidth was set to 9 KHz. No post-detector video filter was used. The spectrum was scanned from 450 KHz to 30 MHz. The physical arrangement of the test system and associated cabling was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude and frequency. All spurious emission frequencies were observed. The highest emission amplitudes relative to the appropriate limit were measured and have been recorded in paragraph 2.6. 2.2 Test Equipment List:

A. EMCO 3825/2 LISN (S/N:2654) B. EMCO 3825/2 LISN (S/N:2658) C. HP 8591EM 9KHZ-1.8GHz Spectrum Analyzer (S/N:73412A00110) D. Shielded Room (MLT-SR1) Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 11/25 Technology Lab 2.3 Test Configuration:

Front View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 12/25 Technology Lab Rear View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 13/25 Technology Lab 2.4 Test condition:

EUT tested in accordance with the specifications given by the manufacturer , and exercised in the most unfavorable manner. 2.5 Conducted Emissions Limits:

Frequency range (MHz) Limits (dBuV) Report Number: MLT0007P15002 FCC ID: MCLT6098U 0

. 4 5 t o 3 0 4 7

. 9 MAX LIGHT MEASUREMENT REPORT Page: 14/25 Technology Lab 2.6 Measurement Data Of Conducted Emissions:

2.6.1 Use Linear AC adapter:

The following table show a summary of the highest emissions of power line conducted emissions to the HOT and NATURAL conductor of the EUT power. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Power Line Conducted Emissions (Class B) Conductor Frequency

(MHz) Peak Amplitude

(dBuV) Limits

(dBuV) L1 L2 Notes :

1.L1: One end & Ground L2: The other end & Ground 2.Height of table on which the EUT was placed : 0.8 m. 3.The above test results are obtained under the normal condition. Report Number: MLT0007P15002 FCC ID: MCLT6098U 0

. 5 6 3 4

. 7 8 4 7

. 9 0

. 9 8 3 2

. 1 1 4 7

. 9 1

. 9 9 3 0

. 6 3 4 7

. 9 3

. 6 4 3 4

. 4 2 4 7

. 9 9

. 7 6 3 6

. 1 0 4 7

. 9 1 1

. 4 3 3 2

. 1 7 4 7

. 9 2 3

. 6 5 3 4

. 4 9 4 7

. 9 0

. 5 6 3 2

. 1 6 4 7

. 9 0

. 9 8 3 3

. 7 6 4 7

. 9 1

. 9 9 3 2

. 4 8 4 7

. 9 3

. 6 4 3 2

. 1 2 4 7

. 9 9

. 7 6 3 3

. 9 7 4 7

. 9 1 1

. 4 3 3 4

. 2 1 4 7

. 9 2 3

. 6 5 3 2

. 5 4 4 7

. 9 MAX LIGHT MEASUREMENT REPORT Page: 15/25 Technology Lab 2.6.1 Use Switch AC adapter:

The following table show a summary of the highest emissions of power line conducted emissions to the HOT and NATURAL conductor of the EUT power. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Power Line Conducted Emissions (Class B) Conductor Frequency

(MHz) Peak Amplitude

(dBuV) Limits

(dBuV) L1 L2 Notes :

1.L1: One end & Ground L2: The other end & Ground 2.Height of table on which the EUT was placed : 0.8 m. 3.The above test results are obtained under the normal condition. Report Number: MLT0007P15002 FCC ID: MCLT6098U 0

. 6 9 3 9

. 5 7 4 7

. 9 0

. 9 0 3 9

. 1 6 4 7

. 9 1

. 0 8 4 1

. 1 9 4 7

. 9 1

. 2 7 4 0

. 4 3 4 7

. 9 1

. 4 5 3 9

. 8 8 4 7

. 9 4

. 7 6 3 8

. 1 6 4 7

. 9 1 1

. 5 6 3 2

. 2 8 4 7

. 9 0

. 6 9 4 0

. 3 4 4 7

. 9 0

. 7 6 3 9

. 3 7 4 7

. 9 1

. 0 8 4 0

. 7 6 4 7

. 9 1

. 2 7 3 9

. 1 2 4 7

. 9 1

. 4 5 3 9

. 7 6 4 7

. 9 4

. 7 6 3 9

. 6 5 4 7

. 9 1 1

. 5 6 3 4

. 1 8 4 7

. 9 MAX LIGHT MEASUREMENT REPORT Page: 16/25 Technology Lab III. Radiated Emissions Requirements 3.1 General & Setup :

Prior to open-field testing, the EUT was placed in a shielded enclosure and scanned at a close distance to determine its emission characteristics. The physical arrangement of the EUT was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude, directivity, and frequency. The exact system configuration which produced the highest emissions was noted so it could be reproduced later during the open-field tests. This was done to ensure that the final measurements would demonstrate the worst-case interference potential of the EUT. Final radiation measurements were made on a three-meter, open-field test site. The EUT system was placed on a nonconductive turntable which is 0.8 meters height, top surface 1.0 x 1.5 meter. The spectrum was examined from 30 MHz to 1000 MHz using an Hewlett Packard 8591EM Spectrum Analyzer, EMCO Biconical Antenna (Model 3142) for 30-1000MHz. At each frequency, the EUT was rotated 360 degrees, and the antenna was raised and lowered from one to four meters to find the maximum emission levels. Measurements were taken using both horizontal and vertical antenna polarization. Appropriate preamplifiers were used for improving sensitivity and precautions were taken to avoid overloading or desensitizing the spectrum analyzer. No post-detector video filters were used in the test. The spectrum analyzer's 6 dB bandwidth was set to 120 KHz, and the analyzer was operated in the quasi-peak detection mode. The highest emission amplitudes relative to the appropriate limit were measured and recorded in paragraph 3.6. 3.2 Test Equipment List:

A. HP 8591EM 9KHz-1.8GHz Spectrum Analyzer (S/N:73412A00230) B. HP 8447D Pre Amplifier (S/N:2944A08954) C. EMCO 3142 Biconilog Antenna (S/N:1184) D. HP 8590A 10KHz-1.5GHz Spectrum Analyzer (S/N:5212A000211) Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 17/25 Technology Lab 3.3 Test Configuration:

Front View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 18/25 Technology Lab Rear View of The Test Configuration Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 19/25 Technology Lab 3.4 Test condition:

EUT tested in accordance with the specifications given by the manufacturer , and exercised in the most unfavorable manner. 3.5 Radiated Emissions Limits:

Frequency range (MHz) Peak(dBuV) Report Number: MLT0007P15002 FCC ID: MCLT6098U 3 0 t o 8 8 4 0 8 8 t o 2 1 6 4 3

. 5 2 1 6 t o 9 6 0 4 6 A b o v e 9 6 0 5 4 MAX LIGHT MEASUREMENT REPORT Page: 20/25 Technology Lab 3.6 Measurement Data Of Radiated Emissions:

3.6.1 Open Field Radiated Emissions (HORIZONTAL)

(Use Linear AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION.

: T60H098.04

: USB Cable Modem Frequency

(MHz) Radiated Emissions (HORIZONTAL) Amplitude Limits(Class B)

(dBuV/m)

(dBuV/m)

(Degree) Ant.

(m) Table Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 5 3 1

. 5 6 1

. 5 3 1 0 4 0

-

8

. 4 4 6 9

. 1 5 3 0

. 8 3 1

. 5 3 3 0 4 0

-

9

. 1 7 8 6

. 6 2 3 3

. 5 2 2 3 0 0 4 0

-

6

. 4 8 8 6

. 8 8 3 2

. 4 4 2

. 5 2 0 0 4 0

-

7

. 5 6 1 4 1

. 2 3 3 5

. 3 2 1 3 6 0 4 3

. 5

-

8

. 1 8 1 4 8

. 3 0 3 3

. 9 8 2

. 5 3 3 0 4 3

. 5

-

9

. 5 2 1 5 3

. 6 8 3 5

. 8 7 1 2 1 0 4 3

. 5

-

7

. 6 3 2 1 2

. 4 5 3 4

. 1 2 2 2 6 0 4 6

-

1 1

. 8 8 2 4 5

. 8 7 3 6

. 4 3 2

. 5 3 6 0 4 6

-

9

. 5 7 2 7 6

. 4 3 3 7

. 5 4 2 3 0 0 4 6

-

8

. 4 6 3 1 2

. 9 4 3 5

. 2 3 2 3 1 0 4 6

-

1 0

. 7 7 MAX LIGHT MEASUREMENT REPORT Page: 21/25 Technology Lab 3.6.2 Open Field Radiated Emissions (VERTICAL)

(Use Linear AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Radiated Emissions (VERTICAL) Frequency

(MHz) Amplitude

(dBuV/m) Ant.

(m) Table Limits(Class B)

(Degree)

(dBuV/m) Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 5 3 5

. 2 3 1

. 5 3 6 0 4 0

-

4

. 7 7 6 9

. 1 5 3 3

. 4 7 1 2 0 0 4 0

-

6

. 5 3 8 6

. 6 2 3 5

. 1 8 2

. 5 3 4 0 4 0

-

4

. 8 2 8 6

. 8 8 3 3

. 5 4 1 2 1 0 4 0

-

6

. 4 6 1 4 1

. 2 3 3 5

. 7 6 1

. 5 2 7 0 4 3

. 5

-

7

. 7 4 1 4 8

. 3 0 3 4

. 1 9 1

. 5 3 6 0 4 3

. 5

-

9

. 3 1 1 5 3

. 6 8 3 5

. 2 1 1 3 0 0 4 3

. 5

-

8

. 2 9 2 1 2

. 4 5 3 4

. 5 6 2 3 2 0 4 6

-

1 1

. 4 4 2 4 5

. 8 7 3 5

. 2 8 1 2 5 0 4 6

-

1 0

. 7 2 2 7 6

. 4 3 3 6

. 7 5 1

. 5 2 1 0 4 6

-

9

. 2 5 3 1 2

. 9 4 3 2

. 1 8 1

. 5 3 6 0 4 6

-

1 3

. 8 2 MAX LIGHT MEASUREMENT REPORT Page: 22/25 Technology Lab 3.6.3 Open Field Radiated Emissions (HORIZONTAL)

(Use Switch AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION.

: T60H098.04

: USB Cable Modem Frequency

(MHz) Radiated Emissions (HORIZONTAL) Limits(Class B) Amplitude

(dBuV/m)

(dBuV/m)

(Degree) Ant.

(m) Table Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 6 3 2

. 9 9 2

. 5 3 2 0 4 0

-

7

. 0 1 6 9

. 1 5 3 4

. 6 5 1 2 3 0 4 0

-

5

. 3 5 7 3

. 4 6 3 2

. 3 4 2

. 5 3 6 0 4 0

-

7

. 6 6 8 6

. 8 8 3 2

. 2 1 2 2 8 0 4 0

-

7

. 7 9 1 2 1

. 9 3 3 6

. 9 8 1 3 1 0 4 3

. 5

-

6

. 5 2 1 4 1

. 2 3 3 8

. 9 9 2

. 5 3 6 0 4 3

. 5

-

4

. 5 1 1 5 3

. 6 8 3 7

. 0 3 1

. 5 2 7 0 4 3

. 5

-

6

. 4 7 2 1 0

. 3 8 3 7

. 4 5 2 2 0 0 4 3

. 5

-

6

. 0 5 2 2 5

. 3 0 3 6

. 3 2 2 3 1 0 4 6

-

9

. 6 8 2 7 6

. 4 3 3 7

. 2 1 1

. 5 3 6 0 4 6

-

8

. 7 9 3 1 2

. 9 4 3 9

. 3 4 1

. 5 3 1 0 4 6

-

6

. 6 6 MAX LIGHT MEASUREMENT REPORT Page: 23/25 Technology Lab 3.6.2 Open Field Radiated Emissions (VERTICAL)

(Use Switch AC adapter) The highest peak values of radiated emissions from the EUT at various antenna heights, antenna polarization, EUT orientation , etc. are recorded on the following. Manufacturer Model No EUT

: AMBIT MICROSYSTEMS CORPORATION..

: T60H098.04

: USB Cable Modem Radiated Emissions (VERTICAL) Frequency

(MHz) Amplitude

(dBuV/m) Ant.

(m) Table Limits(Class B)

(Degree)

(dBuV/m) Margin

(dB) Notes : 1.Margin= Amplitude - Limits 2.Distance of Measurement : 3 Meter (30-1000MHz) 3.Height of table for EUT placed: 0.8 Meter. 4.ANT= Antenna height. 5.Amplitude= Reading Amplitude Amplifier gain+Cable loss

+Antenna factor

(Auto calculate in spectrum analyzer) Report Number: MLT0007P15002 FCC ID: MCLT6098U 4 3

. 6 6 3 5

. 9 5 1

. 5 3 0 0 4 0

-

4

. 0 5 6 9

. 1 5 3 4

. 1 5 1

. 5 2 7 0 4 0

-

5

. 8 5 7 3

. 4 6 3 3

. 2 9 2 3 0 0 4 0

-

6

. 7 1 8 6

. 8 8 3 4

. 7 8 2 2 9 0 4 0

-

5

. 2 2 1 2 1

. 9 3 3 7

. 4 5 1 3 0 0 4 3

. 5

-

6

. 0 5 1 4 1

. 2 3 3 8

. 2 1 1

. 5 2 6 0 4 3

. 5

-

5

. 2 9 1 5 3

. 6 8 3 6

. 7 3 1

. 5 3 5 0 4 3

. 5

-

6

. 7 7 2 1 0

. 3 8 3 6

. 3 2 1

. 5 2 2 0 4 3

. 5

-

7

. 1 8 2 2 5

. 3 0 3 4

. 1 5 1 3 6 0 4 6

-

1 1

. 8 5 2 7 6

. 4 3 3 6

. 9 8 2 2 9 0 4 6

-

9

. 0 2 3 1 2

. 9 4 3 8

. 1 2 1

. 5 3 0 0 4 6

-

7

. 8 8 MAX LIGHT MEASUREMENT REPORT Page: 24/25 Technology Lab Appendix I- EUT Test SETUP MEASUREMENT OF POWER LINE CONDUCTED RFI VOLTAGE EUT 0.8M 0.8M Metal floor surfaced with 30mm of insulating material LISN Report Number: MLT0007P15002 FCC ID: MCLT6098U MAX LIGHT MEASUREMENT REPORT Page: 25/25 Technology Lab Appendix I- EUT Test SETUP MEASUREMENT OF RADIATED EMISSION 4.0M 3.0M Antenna Tower Receiver Antenna EUT 0.8M Ground Plane 0000 RF Test Receiver Report Number: MLT0007P15002 FCC ID: MCLT6098U