Gebruiksaanwijzing /service van het product GM965 van de fabrikant MSi
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i M S - 9803 ( V1.X) M a in b o a rd G 52 - 98031 X3 F u z z y G M 9 6 5 /G M E 9 65.
ii C op y r ig h t N o t i ce T h e m a t e r i a l in t hi s d o c u m en t i s t he i n t elle c t u a l p r o p e r t y o f M I C R O - S T AR I N T E R N A TIO N AL .
iii S a f e t y In s t r u c t i ons 1. A lw a y s r e a d t he s a f e t y in s t r u c t i on s c a r e f u l l y. 2. K e e p t h i s U s er ’ s M a n u a l f o r f u t u r e r e f e r e n c e. 3. K e ep t h i s e quip m e n t awa y f r o m hu m i di t y.
iv F CC - B Ra di o F re qu e n c y In t er f ere n c e St a t e m e nt T h i s e qu i p m e n t h a s been t e s t e d a n d f o un d t o c o m ply wi t h t he l i m i t s f o r a C l a ss B d i g i t a l d e v i c e , pu rs u a n t t o P a rt 1 5 o f t h e F C C R ul e s .
v W EEE ( W a s t e E l ec t r i ca l a nd E l ec t r oni c E quip m e n t) St a t em e nt.
vi.
v ii.
v iii C O N TE N TS Co p y r i gh t N o t i c e ................................................................................................... . ii T r ad e m a rk s ................................................................................
1 -1 P r o d u c t O ve r v i ew C h a p t e r 1 P ro d u c t O v e r v i ew T h an k y o u f o r c hoo s i n g t h e F u zzy G M 965 / G M E 965 ( M S- 980 3 v 1 .
M S - 98 0 3 M a inb o ard 1 -2 M a in b o a rd Spec i f ic a t i o ns P r o c ess or - I n t e l C o r e 2 D u o / C o r e D u o / C e l e r o n M C P U i n S o c k e t P - S u pp o r t s 3 - p i n C.
1 -3 P r o d u c t O ve r v i ew - 1 PS 2 k e y b o a r d / m o u s e p o rt - 6 a u d i o j a c ks O n b o a r d C onn ec t o rs - 2 U S B 2 . 0 c o n n e c t o r s ( 4 po r t s) - 1 pa r a ll e l po.
M S - 98 0 3 M a inb o ard 1 -4 B lo ck D i agr am.
1 -5 P r o d u c t O ve r v i ew Fu zz y G M 965 /G ME 965 ( MS- 9803 v1 . X ) M ini IT X M a inbo ard M a in bo a r d L a yo ut C F1 ( Op t io n al) J L V D S1 D I M M1 D I M M2 J T V2 J BA T1 C P U .
M S - 98 0 3 M a inb o ard 1 -6 Bo a rd Di m e nsi on.
1 -7 P r o d u c t O ve r v i ew B a ck P a n e l & I /O S hi e ld Dr aw ing.
M S - 98 0 3 M a inb o ard 1 -8 Po w e r Co nsu mp t i on Cur r ent( A ) C u rrent( A ) C urrent( A ) Current( A ) Current(A ) Current(A) Ent e r DOS(Stabl e) 2.45 2.75 2.97 0 0 . 05 0 . 02 Ent e r BIOS(Sta b le) 2.42 2.74 2.97 0 0 . 05 0 . 02 Idle 1.
1 -9 P r o d u c t O ve r v i ew M T BF - R e l i a bi l i t y P r e d i ct i on C a l c u l a ti o n M o d e l O p e r a ti o n t e m p e r a t u r e ( ℃ ) O p e r a ti n g E n v i r o n m e n t D u t y C y c l e M T B F ( h r .) T e l c o r d ia I s s u e 1 3 5 G F , GU - G r o u n d F i x e d , U n c o n tr o ll e d 1 0 , 86 7 .
M S - 98 0 3 M a inb o ard 1-10.
2 -1 Har dw a r e S e t up C h a p t e r 2 H a r d w a r e S e t up T h i s c hap t e r p r o v i d e s y o u w i t h t h e in f o r m a t i o n about h a r dwa r e s e t up p r o c e d u r e s .
2 -2 M S - 98 0 3 M a inb o ard Q ui ck Co m po n e n t s G ui de S Y SF A N 1, p . 2 - 13 C PU , p . 2 -3 D I MM S l o ts , p . 2 -6 I D E1 , p . 2 - 10 JC F _S E L1 , p . 2 - 20 JCA S E1 , p . 2 - 10 J B A T1 , p . 2 - 18 B a c k P a n el I /O , p .
2 -3 Har dw a r e S e t up CPU (Ce n tr a l Proce ssin g U ni t) I m po r t a nt 1 . O v e r he a t i n g w i l l s e r i o u s l y da m a ge t he C P U a nd s ys t e m . A l w a y s m a ke s u r e t he c oo l i ng f an c a n w o rk p r o pe r l y t o p r o t e c t t he C P U f r o m o v e r he a t i ng.
2 -4 M S - 98 0 3 M a inb o ard I m po r t a nt 2 . P l a c e t h e C P U o n t op o f t h e s o ck e t. M a k e s u r e t o a l i gn t h e go ld a rr ow o n t h e C PU w i t h t he a r r o w k e y on t h e s o c k e t. 3 . P u s h t h e C P U d ow n u n t i l i t s p i n s s e c u r e l y f i t i n t o t h e s o c k e t.
2 -5 Har dw a r e S e t up 7. T h e h e a t s i n k p a s t e h e lp s t o e nh a n c e h ea t d i ss i p a t io n o f t h e C P U . B e f o r e i n s t a ll i ng t h e c oo l e r s e t ( f a n & .
2 -6 M S - 98 0 3 M a inb o ard In s t a lli n g DD R 2 M od u l es 1 . T h e m e m o ry m o dul e h a s o n l y o ne n o t c h o n t h e c e n t e r a n d wi ll o nl y f i t i n t h e r ight o r i e n t a t i o n. 2 . I n s e r t t h e m e m o r y m odu l e v e r t i c all y i n t o t h e D I M M s l o t .
2 -7 Har dw a r e S e t up Po w er S u pp ly I m po r t a nt P ow e r s u pp l y o f 3 5 0 w a t ts ( and abo v e ) i s high l y r e c o mm e nde d f o r sy s t em s t a b il i t y. A T X 1 P i n D e f i n i t ion P IN SI G NAL 11 3.3V 12 - 1 2V 13 GND 14 PS _ ON 15 GND 16 GND 17 GND 18 -5V 19 5V 20 5V P IN SI G NAL 1 3.
2 -8 M S - 98 0 3 M a inb o ard Lin k I ndi c ator A cti v ity I nd i cator LED Color LED State C o nd i t i on Off L A N li n k is not esta b lished. Left Green On (ste a dy st a te) L A N link is established. On ( brighte r & pul s ing ) T he co m put e r is c omm unic a ting w ith an o ther c om puter on the L A N.
2 -9 Har dw a r e S e t up A u di o P o r ts T h e s e a u d io c o n n e c t o r s a r e u s e d f o r a u d i o de v i c e s . Y o u c an d i ff e r e n t i a t e t h e c o l or o f t h e a u d i o j a c k s f o r d i f f e r e n t au d io s oun d e ff e c t s.
2-10 M S - 98 0 3 M a inb o ard Con n ec t or I D E C on n ec t o r : I D E1 T h i s c o nn e c t o r s upp o r t s I D E h a r d d i s k d r i v e s , o p t i c a l d i sk d r i v e s an d o t h e r I D E d e v i c e s.
2-11 Har dw a r e S e t up S er i a l A T A II C onn e c t o r : S A T A 1 , S A T A2 T h i s c on n e c t o r i s a h i gh -s pee d S e r i al A T A II in t e r f a c e p o r t. E a c h c o nn e c t o r c an c onn e c t t o o n e S e r i al A T A I I d e v i c e.
2-12 M S - 98 0 3 M a inb o ard A udio Am pli f i er C onn ec t o r : J A MP1 T he J A MP 1 i s u s e d t o c onn e c t a u d io a m pli f ie r s t o e n h a n c e a u d io p e r f o rm a n c e.
2-13 Har dw a r e S e t up P IN SI G NAL DE S CRIP T ION 1 HD_ L ED + H a rd dis k L E D p ull - up 2 F P P W R / S LP M S G L E D p ull - up 3 HD_ L ED - H a rd d i sk ac t i v e L ED 4 F P P W R / S.
2-14 M S - 98 0 3 M a inb o ard 3 J T V2 1 5 4 2 T V - O u t C o n n ec t o r : J T V 2 ( Op t i o n a l) T h i s c o n n e c t o r i s f o r y ou t o a tt a c h a n o p t io n a l T V - O u t b r a c k e t t h a t o f f e r s t wo t y p es o f T V - O u t c o nn e c t o rs : S- V i de o a nd RC A C o m p o s i t e c o n n e c t o r s .
2-15 Har dw a r e S e t up S I G NA L P I N S I G N A L + 12 V 2 1 + 1 2 V + 12 V 4 3 + 1 2 V G N D 6 5 + 1 2 V G N D 8 7 V CC 3 / V C C 5 L C D _ V D D 10 9 L C D _ V D D L D DC _ D A T A 12 11 L DD .
2-16 M S - 98 0 3 M a inb o ard 1 9 2 10 F _ U S B 1 /2 P IN SI G NAL P IN SI G NAL 1 V CC 2 V CC 3 U S B 0- 4 U S B 1- 5 U S B 0+ 6 U S B 1+ 7 GND 8 GND 9 Ke y (no p in) 10 NC P in D e f ini t ion I m po r t a nt No t e t h a t t h e p i n s o f V CC a n d G N D m u s t be c onn e c t ed c o rr e c t l y t o a v o id po s s i b l e da m a ge.
2-17 Har dw a r e S e t up P a ra l l e l / S e r i a l P o r t Bra c ke t ( O p t i o nal) P ara ll e l P o r t C onn ec t o r : J L P T1 T h e m a i n b oa r d p r o v id e s a 2 6 - p i n h ea d e r f o r c o n n e c t io n t o a n o p t io n a l p a r allel po rt b r a ck e t .
2-18 M S - 98 0 3 M a inb o ard J u m per C l e a r C M O S J u m p er : JB A T1 T h e r e i s a C M O S R AM o nb oa r d t h a t h a s a po we r s uppl y f r o m e x t e r n a l b a tt e ry t o k eep t h e d a t a o f sys t e m c on f i gu r a t io n .
2-19 Har dw a r e S e t up P C I (P er iph e r a l C o m pon e n t In t erc onn ec t ) E x p ress S lot T he P C I E x p r e s s s lo t s u p p o r t s P C I Ex p r e s s i n t e r f a c e e x p a n s io n c a r d s. T h e P C I Ex p r e s s x 16 s l o t s up p o r t s up t o 4 .
2-20 M S - 98 0 3 M a inb o ard C o m p ac t Fl as h Car d S lo t: C F 1 ( O p t ion a l) T h i s Co m p a c tF l a s h s l o t s h a r e s o n e c h a nn e l o f t h e I D E c o n t r oll e r . Y o u c a n i n s t a ll o ne Co m pa c tF l a s h t y p e I / t y p e II de v i c e.
3 -1 B I O S S e t up C h a p t e r 3 B I O S S e t up T h i s c h a p t e r p r o v i d e s i n f o r m a t i on o n t h e B I O S S e t up p r og r a m an d al l o w s y ou t o c on f i g u r e t he s y s t e m f or o p t i m u m u s e.
3 -2 M S - 98 0 3 M a inb o ard E n ter i ng Set up I m po r t a nt 1 . T h e i t e m s u n de r e a c h B IO S c a t e g o r y d e s c r i b e d in t h i s c h a p t e r a r e u n d er c o n t i n u ou s u pd a t e f o r b e t t e r s y s t e m pe r f o rm an c e .
3 -3 B I O S S e t up G e t t ing H e lp A f t e r e n t e r i n g t he S e t u p m e n u , t h e f i r s t m enu y ou wi l l s e e i s t he M ai n M e nu. M a in M e nu T h e m ai n m e nu l i s t s t h e s e t up f un c t i on s y o u c a n m a k e c hang e s t o .
3 -4 M S - 98 0 3 M a inb o ard T h e M e nu B ar M a in U s e t h i s m e n u f o r b a s i c s ys t e m c o n f i g u r a t i o n s , s u c h a s t i m e , d a t e e t c. A d va n ced U s e t hi s m enu t o s e t u p t he i t e m s o f s pe c ia l e n h a n c ed f e a t u r e s.
3 -5 B I O S S e t up M a in A M I B I O S , P r o ce s s o r , S ys t em M em o ry T h e s e i t e ms s h ow t h e f i r m w a r e a n d h a r dw a r e s pe c i f i c a t i o n s o f y o u r sy s t e m . R e ad on l y. S ys t e m T i me T h e t i m e f o rm a t i s < H ou r> < M i nu t e > < S e c o nd >.
3 -6 M S - 98 0 3 M a inb o ard A d v a n ced C P U C o n f i g u r a t i on T h e s e i t e ms s h o w t he a d v a n c e d s p e c i f i c a t i o n s o f y o u r C P U .
3 -7 B I O S S e t up I D E C o n f i g u r a t i on A T A / I D E C o n f ig u r a t i on T h i s s e t t i ng s p e c i f i e s t h e m o de s o f t h e P A T A & S A T A p o r t s. C o n f i g u re S A T A as s T h i s s e t t i n g s p e c i f ie s t h e f u n c t io n o f t he o n -c h i p S A T A c on t r olle r.
3 -8 M S - 98 0 3 M a inb o ard P r i m a ry / S ec o n d ar y /Th i r d/ F ou r t h I D E M a s t e r / S l a ve [ T y p e] Pr e ss P g U p / <+> o r P g D n / <-> t o s e l e ct [ M a n u a l ], [ N o n e ] o r [ A u t o ] t y p e .
3 -9 B I O S S e t up S up e r IO C on f i gu r a t i on S e r i a l P o r t 1 / 2 A dd r ess S el e c t a n a dd r e s s a n d a c o rr e s pond i n g i n t e r r up t f o r t he s e r ia l p o r t 1 / 2.
3-10 M S - 98 0 3 M a inb o ard H a r dw a r e He a l t h C on f i gu ra t ion S ys t e m 1 / 2 T em p e r a t u re , C P U T e m p er a t u r e , C P U F A N S p ee d , V c o r e, A V CC , 3 V C C , .
3-11 B I O S S e t up A C P I C o n f i gu r a t i on S u s p e nd M ode T h i s i t e m s p e c i f i e s t he p owe r s a v i n g m o d e s f o r A C P I f un c t io n .
3-12 M S - 98 0 3 M a inb o ard A P M C on f ig u ra t i on P o w er M a n a g e me n t / A PM S e tt ing t o [ E nabl e d ] w i l l a c t i v a t e a n A d v a n c ed P ow e r M an a g e m en t ( A PM) d e- v i c e t o e n h a n c e M a x S a v i ng m o d e a nd s t o p C P U i n t e r n a l c l o ck.
3-13 B I O S S e t up I n t e l R o b s o n C on f igu r a t i on I n t e l R ob s on R ob s o n i s t h e c o d e n a m e f o r a ne w I n t e l p l a t f o r m t e c hnolog y t h a t u s e s non- v .
3-14 M S - 98 0 3 M a inb o ard MPS C on f ig u ra t i on M P S R e v i s i on T h i s f i eld a l l ow s y ou t o s e le c t w hi c h M P S ( M u l t i - Pr o c e s s o r S p e c i f i c a t i o n ) v e r- s i o n t o be u s ed f o r t h e op e r a t i n g s y s t e m .
3-15 B I O S S e t up T r u s t e d C o m pu t ing T C G /T P M S u p p o rt T h i s s e tt i ng c o n t r o l s t h e T r u s t e d P l a tf o rm M o dul e ( T P M ) d e s i gn ed b y t h e T r u s t ed C o m p u t in g G r o u p ( T C G ) .
3-16 M S - 98 0 3 M a inb o ard U S B C o n f i g u r a t i on L e g a c y U S B S u p p o rt S e t t o [ E n a b led ] i f y ou ne e d t o u s e a n y U S B 1 . 1 / 2 . 0 de v i c e in t h e o p e r a t i ng sys t e m t h a t d oe s n o t s up p o r t o r h a v e a n y U SB 1 .
3-17 B I O S S e t up Boot B oo t S e t t i n g s C on f ig u ra t i on.
3-18 M S - 98 0 3 M a inb o ard Qu i c k B o ot E n a bl i ng t h i s s e tt i ng wi ll c a u s e t h e B I O S p owe r- o n s e l f t e s t r o u t i n e t o sk i p s o me o f i t s t e s t s du r i n g bo o t u p f o r f a s t e r s ys t e m b o o t.
3-19 B I O S S e t up t u r e " I n t e r r u p t 1 9 . T h e r e f o r e , y o u w i l l no t be ab l e t o b o o t o p e r a t i n g s y s t e ms f r o m a n y b oo t a bl e di sks a tt a c h e d t o t h e s e h o s t a d a p t o rs . No r wi ll y o u b e a bl e to g a in a cc e ss t o t h ei r R O M s e t up u t i l i t i e s.
3-20 M S - 98 0 3 M a inb o ard Rem o va bl e Dr i ves 1 s t D r i ve T hi s s e t t i ng a l low s u s e rs t o s e t t h e p r i o r i t y o f t he r e m o v a b le de v i c e s . F i r st p r e ss < E n t e r > t o en t e r t h e s ub -m enu .
3-21 B I O S S e t up Sec u r i ty S up erv i s o r P a ss wo r d / C h a ng e S up erv i s o r P a ss wo rd S upe r v i s o r P a ss w o r d c o n t r o l s a cc e s s t o t he B I O S S e t up u t i l i t y . T h e s e s e t t i ng s all ow y ou t o s e t o r c h a n ge t he s u p e r v i s o r pa s s w o r d.
3-22 M S - 98 0 3 M a inb o ard Ch i pset.
3-23 B I O S S e t up N o r t h B r id g e C on f igu r a t i on B oo t G r a ph i cs A d a p t e r P r io r i ty T h i s i t e m s pe c i f ie s wh i c h V G A c a r d i s y o u r p r i m a r y g r a p h i c s adap t e r.
3-24 M S - 98 0 3 M a inb o ard V id e o F un c t i o n C o n f i gu r a t i on D V M T M o d e S e l ect I n t e l ' s D y n a m i c V i d eo M e m o r y T e c hn o l o g y ( D V M T ) all o w s.
3-25 B I O S S e t up S ou t h B r id g e C on f igu r a t i on U S B F u n c t i ons T hi s s e tt i n g s p e c i f ie s t h e f un c t io n o f t h e o nbo a r d U SB c o n t r o l l e r. U S B 2 . 0 C o n t r o l l er S e t t o [ E n a bl e d ] i f y o u n ee d t o u s e a n y U SB 2 .
3-26 M S - 98 0 3 M a inb o ard Ex it S a v e C h a n g e s a n d E x it S a v e c h a nge s t o C M O S a n d e x i t t h e S e t up U t i l i t y. D i s ca r d C h a ng e s a n d E x it A b a n d o n a l l c h a n g e s a nd e x i t t h e S e t u p U t i l i t y.
4 -1 S y s t e m R e s o u r c es C h a p t e r 4 S ys t e m R e s o u r c es T h i s c h a p t e r p r o v i de s in f o r m a t io n o n t h e f o l l ow ing s y s t e m r e s ou rc e s: 1 . W a t c h D og T i m e r S e tt ing ( p . 4 - 2 ); 2 . A M I P O S T C o d e ( p .
M S - 98 0 3 M a inb o ard 4 -2 W a t c h D og Ti m er Set ting S o f t w are c ode S I O _ I D X e q u 2 EH S I O _D T A e qu 2 FH T i m e r equ 10 ; r e s e t a f t e r 10 s e c o n ds 1 . E n t e r c o n f i gu r a t io n m o de m o v d x , S I O _ I DX m o v a l , 87h o u t d x , al o u t d x , al 2 .
4 -3 S y s t e m R e s o u r c es AMI P O S T Code.
M S - 98 0 3 M a inb o ard 4 -4.
4 -5 S y s t e m R e s o u r c es.
M S - 98 0 3 M a inb o ard 4 -6.
4 -7 S y s t e m R e s o u r c es Re s o u rce L ist G e n e r i c I/ O P o r t s ( I ) I C H 8 M G P I O P i n G P I O T y p M ul t i P o w e r C onne c t i on . A G 12 0 I/ O B M B U S Y # 3 . 3 v P M _ B M B U SY # A G 22 1 1 I/ O S M BA L E R T # 3 .
M S - 98 0 3 M a inb o ard 4 -8 ( Ⅱ ) S I O G P I O P in G P I O T y p M u l t i P o w e r C onne c t i on . 121 17 I/ O V I D 7 V C C 5 N C 122 16 I/ O V I D6 V C C5 NC 123 15 I/ O V I D5 V C C5 NC.
4 -9 S y s t e m R e s o u r c es 79 46 I D S R B # VSB D S R B # 82 43 I S I N B VSB S I N B 80 45 O R T SB # VSB R T S B # 83 42 O S O U T B VSB S O U T B 78 47 I C T SB # VSB C T S B # 81 44 O D T .
M S - 98 0 3 M a inb o ard 4-10 I / O M ap I / O P o rt D e s c r i p t i on 0000 - 000F D M A C on t r o l l e r 1 0020 - 0021 I n t e r r up t C o n t r o l l e r 1 002 E - 002F SI O P o rt 0040 - 0.
4-11 S y s t e m R e s o u r c es P C I D ev i c es P CI De vice De v i ce V en . ID De v . ID B u s# D e v# F u n c# H o s t B r i dge 8086 2 A 00 00 00 00 V G A - c o m pa t i b l e C on t r o l l e.
M S - 98 0 3 M a inb o ard 4-12 S M B u s R e s ou r ce A l lo ca t ion I S A I n t er r up t A ll o ca t i on I S A D M A C h a n n e l A l l o c a t i on I SA I n te r r up t A l l o c a t i on I R .
Een belangrijk punt na aankoop van elk apparaat MSi GM965 (of zelfs voordat je het koopt) is om de handleiding te lezen. Dit moeten wij doen vanwege een paar simpele redenen:
Als u nog geen MSi GM965 heb gekocht dan nu is een goed moment om kennis te maken met de basisgegevens van het product. Eerst kijk dan naar de eerste pagina\'s van de handleiding, die je hierboven vindt. Je moet daar de belangrijkste technische gegevens MSi GM965 vinden. Op dit manier kan je controleren of het apparaat aan jouw behoeften voldoet. Op de volgende pagina's van de handleiding MSi GM965 leer je over alle kenmerken van het product en krijg je informatie over de werking. De informatie die je over MSi GM965 krijgt, zal je zeker helpen om een besluit over de aankoop te nemen.
In een situatie waarin je al een beziter van MSi GM965 bent, maar toch heb je de instructies niet gelezen, moet je het doen voor de hierboven beschreven redenen. Je zult dan weten of je goed de alle beschikbare functies heb gebruikt, en of je fouten heb gemaakt die het leven van de MSi GM965 kunnen verkorten.
Maar de belangrijkste taak van de handleiding is om de gebruiker bij het oplossen van problemen te helpen met MSi GM965 . Bijna altijd, zal je daar het vinden Troubleshooting met de meest voorkomende storingen en defecten #MANUAl# samen met de instructies over hun opplosinge. Zelfs als je zelf niet kan om het probleem op te lossen, zal de instructie je de weg wijzen naar verdere andere procedure, bijv. door contact met de klantenservice of het dichtstbijzijnde servicecentrum.
