FCC-B Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. However, there is no guarantee that interference will occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the measures listed below. n
Reorient or relocate relocat e the receiving antenna.
n
Increase the separation between the equipment and receiver.
n
Connect the equipment into an outlet on a circuit different from fr om that to which the receiver is connected.
n
Consult the dealer or or an experienced experienc ed radio/ television technician technici an for help.
Notice 1 The changes or modifications not expressly approved by the party responsible for compliance compliance could c ould void the user s authority to operate the equipment.
Notice 2 Shielded interface cables and A.C. power cord, if any, must be used in order to comply with the emission limits. VOIR LA NOTICE DNSTALLATION NSTALLATION AVANT AVANT DE R ACCORDER AU RESEAU.
Micro-Star International MS-7267
G52-72671XJ
Copyright Notice The material in this document is the intellectual property of MICRO-STAR INTERNATIONAL. We take every care in the preparation of this document, but no guarantee is given as to the correctness of its contents. Our products are under continual improvement and we reserve the right to make changes without notice.
Trademarks All trademarks are the properties pr operties of their t heir respective respecti ve owners. !
AMD , Athlon" Athlon"XP, XP, Thoroughbred Thor oughbred" and Duron" are registered trademarks of ! AMD Corporation. !
!
Intel and Pentium are registered trademarks of Intel Corporation. !
PS/2 and OS /2 are registered trademarks of International Business Machines Corporation. !
!
Microsoft is a registered trademark of Microsoft Microsoft Corporation. Windows 98/2000/NT/XP are registered trademarks of Microsoft Corporation. !
NVIDIA , the NVIDIA logo, DualNet, and nForce are registered trademarks or trademarks of ! NVIDIA Corporation in the United States and/or other countries. !
Netware is a registered trademark of Novell, Inc. !
Award is a registered trademark of Phoenix Technologies Ltd. !
AMI is a registered trademark of American American Megatrends Inc. Kensington and MicroSaver are registered trademarks of the Kensington Technology Group. PCMCIA and CardBus are registered trademarks of the Personal Computer Memory Card International International Association.
Revision History Revision
Revision History Hist ory
Date
V4.1
Release for 945GCM5 V2 series
April, 2007
(Intel 945GC & ICH7)
Safety Instructions n
Always read the safety saf ety instructions carefully car efully..
n
Keep this User Manual for future reference. refer ence.
n
Keep this equipment equipm ent away from humidity.
n
Lay this equipment on a reliable reli able flat surface surfac e before setting it up.
n
The openings on the enclosure are for air air convection convecti on hence protects the equipment from overheating. Do not cover the openings.
n
Make sure the voltage of the power source sourc e and adjust adjust properly 110/220V 110/220V befor before e connecting the equipment to the power inlet.
n
Place the power cord such a way that people can not step on it. Do not place anything over the power cord.
n
Always Unplug the the Power Cord before inserting inserting any add-on card or or module.
n
All cautions cauti ons and warnings on the equipment should be noted.
n
Never pour any liquid liquid into into the opening that could damage or cause caus e electrical shock.
n
If any of of the following followi ng situations situati ons arises, get the equipment checked by a service personnel: - The power cord or plug is damaged. - Liquid has penetrated into the equipment. - The equipment has been exposed to moisture. - The equipment does not work well or you can not get it work according to User Manual. - The equipment has dropped and damaged. - The equipment has obvious sign of breakage.
n
Do not leave this equipment in an environment unconditioned, unc onditioned, storage temperature temper ature above 60# C (140#F), it may damage the equipment.
CAUTION: Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer.
WEEE Statement ENGLISH To protect the global environment and as an environmentalist, MSI must remind you that... Under the European Union ("EU") Directive on Waste Electrical and Electronic Equipment, Directive 2002/96/EC, which takes effect on August 13, 2005, products of "electrical and electronic equipment" cannot be discarded as municipal waste anymore and manufacturers of covered electronic equipment will be obligated to take back such products at the end of their useful life. MSI will comply with the product take back requirements at the end of life of MSI-branded products that are sold into the EU. You can return these products to local collection points.
DEUTSCH Hinweis von MSI zur Erhaltung und Schutz unserer Umwelt Gem$' der Richtlinie 2002/96/EG (ber Elektro- und Elektronik-Altger $te d(rfen Elektro- und Elektronik-Altger $te nicht mehr als kommunale Abf $lle entsorgt werden. MSI hat europaweit verschiedene Sammel- und Recyclingunternehmen beauftragt, die in die Europ$ische Union Uni on in Verkehr gebrachten Produkte, am Ende seines Lebenszyklus zur (ckzunehmen. Bitte entsorgen Sie dieses Produkt zum gegebenen Zeitpunkt ausschliesslich an einer lokalen Altger $tesammelstelle in Ihrer N$he.
FRAN"AIS En tant qu*cologiste et afin de prot*ger lenvironnement, MSI tient - rappeler ceci... Au sujet de la directive europ* enne (EU) relative aux d*chets des *quipement *lectriques et *lectroniques, directive 2002/96/EC, prenant effet le 13 ao/t 2005, que les produits *lectriques et *lectroniques ne peuvent 1tre d*pos*s dans les d*charges ou tout simplement mis - la poubelle. Les fabricants de ces *quipements seront oblig*s de r *cup*rer certains produits en fin de vie. MSI prendra en compte cette exigence relative au retour des produits en fin de vie au sein de la c ommunaut* europ* enne. Par cons*quent vous pouvez retourner localement ces mat*riels dans les points de collecte.
%'(()*+ 2356789: MSI 6;=>6;98957=? 7@?9A8B= >=CE?A9: 63 G7H9?= 3@;IK7LH=C E;=>B, 63M?35I 87635987=5 A75, O?3.... P E33?A=?E?A99 E >9;=@?9A3C RA;36=CE@3T3 U3LG7 (RU) 63 6;=>3?A;7H=89L G7T;:G8=89: 3@;IK7LH=C E;=>B 9E63WXG3A788B5 MW=@?;9O=E@95 9 MW=@?;388B5 3Y3;I>3A789=5 (>9;=@?9A7 WEEE 2002/96/EC), AE?I67LH=C A E9WI 13 7ATIE?7 2005 T3>7, 9G>=W9:, 3?83E:H9=E: @ MW=@?;9O=E@35I 9 MW=@?;38835I 3Y3;I>3A789L, 8= 53TI? ;7EE57?;9A7?XE: @7@ YB?3A3C 5IE3;, 63M?35I 6;39GA3>9?=W9 ABZ=6=;=O9EW=883T3 MW=@?;3883T3 3Y3;I>3A789: 3Y:G78B 6;98957?X =T3 >W: 6=;=;7Y3?@9 63 3@38O7899 E;3@7 EWIKYB. MSI 3Y:GI=?E: E3YWL>7?X ?;=Y3A789: 63 6;9=5I 6;3>I@[99, 6;3>7883C 63> 57;@3C MSI 87 ?=;;9?3;99 EC, A 6=;=;7Y3?@I 63 3@38O7899 E;3@7 EWIKYB. PB 53K=?= A=;8I?X M?9 9G>=W9: A E6=[97W9G9;3A788B= 6I8@?B 6;9=57. ESPA-OL MSI como empresa comprometida con la protecci \n del medio ambiente, recomienda: Bajo la directiva 2002/96/EC de la Uni\n Europea en materia de desechos y/o equipos electr \nicos, con fecha de rigor desde el 13 de agosto de 2005, los productos clasificados como "el *ctricos y equipos electr \nicos" no pueden ser depositados en los contenedores habituales de su municipio, los fabricantes de equipos electr \nicos, est]n obligados a hacerse cargo de dichos productos al termino de su per ^ odo de vida. MSI estar ] comprometido con los t*rminos de recogida de sus productos vendidos en la Uni\n Europea al final de su periodo de vida. Usted debe depositar estos productos en el punto limpio establecido por el ayuntamiento de su localidad o entregar a una empresa aut orizada para la recogida de estos residuos.
NEDERLANDS Om het milieu te beschermen, wil MSI u eraan herinneren dat` . De richtlijn van de Europese Unie (EU) met betrekking tot Vervuiling van Electrische en Electronische producten (2002/96/EC), die op 13 Augustus 2005 in zal gaan kunnen niet meer beschouwd worden als vervuiling. Fabrikanten van dit soort producten worden verplicht om producten retour te nem en aan het eind van hun levenscyclus. MSI zal overeenkomstig de richtlijn handelen voor de producten die de merknaam MSI dragen en verkocht zijn in de EU. Deze goederen kunnen geretourneerd worden op lokale inzamelingspunten.
SRPSKI Da bi zaatitili prirodnu sredinu, i kao preduzede koje vodi raeuna o okolini i prirodnoj sredini, MSI mora da vas podesti da` Po Direktivi Evropske unije ("EU") o odbaeenoj ekektronskoj i elektrienoj opremi, Direktiva 2002/96/EC, koja stupa na snagu od 13. Avgusta 2005, proizvodi koji spadaju pod "elektronsku i elektrienu opremu" ne mogu viae biti odbaeeni kao obiean otpad i proizvof aei ove opreme bide prinufeni da uzmu natrag ove proizvode na kraju njihovog uobieajenog veka trajanja. MSI de poatovati zahtev o preuzimanju ovakvih proizvoda kojima je istekao vek trajanja, koji imaju MSI oznaku i koji su prodati u EU. Ove proizvode mogete vratiti na lokalnim mestima za prikupljanje.
POLSKI Aby chronid nasze irodowisko naturalne oraz jako firma dbajj ca ca o ekologil, MSI przypomina, me... Zgodnie z Dyrektywj Unii Unii Europejskiej ("UE") dotyczj cj odpad odpad\w produkt\w elektrycznych i elektronicznych (Dyrektywa 2002/96/EC), kt\ra wchodzi w mycie 13 sierpnia 2005, tzw. oprodukty oraz wyposamenie elektryczne i elektroniczne " nie mogj by b yd traktowane jako imieci komunalne, tak wilc producenci tych produkt\w bldj zobowi zobowij zani zani do odbierania ich w momencie gdy produkt jest wycofywany z u mycia. MSI wypepni wymagania UE, przyjmujj c produkty (sprzedawane na terenie Unii Europejskiej) wycofywane z umycia. Produkty MSI bldzie momna zwracad w wyznaczonych punktach zbiorczych.
T 0RK"E qevreci szellitiyle bilinen MSI d( nyada vevreyi korumak i vin hat_ rlat_ r: Avrupa Birli ti (AB) Kararnamesi Elektrik ve Elektronik Malzeme At_t_ , 2002/96/EC Kararnamesi alt_nda 13 Atustos 2005 tarihinden itibaren geverli olmak (zere, elektrikli ve elektronik malzemeler di ter at_klar gibi vspe at_ lamayacak ve bu elektonik cihazlar _ n (reticileri, cihazlar _n kullan_m s(releri bittikten sonra (r (nleri geri toplamakla y(k(ml ( olacakt_ r. Avrupa Birli ti ne sat_lan MSI markal _ (r (nlerin kullan_ m s (releri bitti tinde MSI (r (nlerin geri al_ nmas_ isteti ile iwbirli ti iverisinde olacakt_ r. xr (nlerinizi yerel toplama noktalar _ na b_rakabilirsiniz.
3ESKY Z]leg^ n]m na ochranz givotn^ho prost{ ed ed^ - spoleenost MSI upozor }uje... Podle smzrnice Evropsk* unie ("EU") o likvidaci elektrick•ch a elektronick•ch v •robk 2002/96/EC platn* od 13. srpna 2005 je zak]z] no likvidovat "elektrick* a elektronick* v•robky" v bzgn*m komun]ln^ m odpadu a v•robci elektronick•ch v•robk, na kter * se tato smzrnice vztahuje, budou povinni odeb^ rat takov* v•robky zpz t po skoneen^ jejich givotnosti. Spoleenost MSI spln^ pogadavky na odeb^ r ]n^ v•robk znaeky MSI, prod]van •ch v zem ^ch EU, po skoneen^ jejich givotnosti. Tyto v•robky m gete odevzdat v m^ stn^ ch sbzrn]ch.
MAGYAR Annak *rdek*ben, hogy ksrnyezet(nket megv*dj(k, illetve k srnyezetv*d#k* nt fell*pve az MSI eml *kezteti &nt, hogy ... Az Eur \pai Uni\ ()EU") 2005. augusztus 13-]n hat]lyba l*p#, az elektromos *s elektronikus berendez*sek hullad*kair \l sz\l\ 2002/96/EK ir ]nyelve szerint az elektromos *s elektronikus berendez*sek tsbb* nem kezelhet#ek lakoss]gi hullad*kk*nt, *s az ilyen elektronikus berendez*sek gy]rt\i ks teless* v]lnak az ilyen term *kek visszav*tel*re azok hasznos *lettartama v*g*n. Az MSI betartja a term*kvisszav*tellel kapcsolatos ks vetelm *nyeket az MSI m ]rkan*v alatt az EU-n bel (l *rt*kes^tett term*kek eset*ben, azok *lettartam]nak v*g *n. Az ilyen term*keket a legkszelebbi gy* jt#helyre viheti. ITALIANO Per proteggere lambiente, MSI, da sempre amica della natura, ti ricorda che`. In base alla Direttiva dell Unione Europea (EU) sullo Smaltimento dei Materiali Elettrici ed Elettronici, Direttiva 2002/96/EC in vigore dal 13 Agosto 2005, prodotti appartenenti alla categoria dei Materiali Elettrici ed Elettronici non possono pi+ essere eliminati come rifiuti municipali: i produttori di detti materiali saranno obbligati a ritirare ogni prodotto alla fine del suo ciclo di vita. MSI si adeguer - a tale Direttiva ritirando tutti i prodotti marchiati MSI che sono stati venduti allinterno dell Unione Europea alla fine del loro ciclo di vita. - possibile portare i prodotti nel pi+ vicino punto di raccolta.
Table of Content English English ................ ........................ ................ ................. ............. .... 1 Fran5ais ................. ......................... ................ ................ .......... .. 13 Deutsch Deutsch........ ................ ................. ................. ................ ........... ... 25
%799:;= ................. ......................... ................ ................ .......... .. 39 ................. ......................... ................ ................ .......... .. 51 ................ ......................... ................. ................ ........... ... 63 ................. ......................... ................ ................ .............. ...... 75
INTRODUCTION Thank you for choosing the th e 945GCM5 V2 series (MS-7267 ( MS-7267 v4.x) Micro-ATX Micro-ATX mainboard. Th e 945GCM5 V2 series are based on Intel 945GC & Intel ICH7 chipsets ch ipsets for optimal system efficiency. Designed to fit the advanced Intel Core2 Duo/ Pentium D/ Pentium 4 / Celeron D processor, the 945GCM5 V2 series deliver a high performance and professional desktop platform solution.
Layout Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Paralle l Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) T:RS-Out M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
1
JUSB2
JUSB1
SPECIFICATIONS Processor Support l Supports
Intel Core2 Duo/ Pentium D/ Pentium P entium 4/ Celeron D LGA 775 processors processors (For the latest information about CPU, please visit http://global.msi.com http://global.msi.com.tw/index .tw/index.php?func=cpufor .php?func=cpuform) m)
Supported FSB l
800 / 533 MHz
Chipset l l
North Bridge: Intel 945GC chipset South Bridge: Intel ICH7 chipset
Memory Support DDR2 400/ 533/ 667 SDRAM (2GB Max) (240pin/ 1.8V) l 2 DDR2 DIMMs (240pin/ (For more information on compatible components, please visit http://global.msi.com.tw/index.php?func=testreport) l
LAN l l
Supports 10/100 Mb/s Fast Ethernet Ethern et by Realtek RTL 8101E 8101E Or Supports 10/100/1000 Mb/s Fast Ethermet Etherm et by Realtek RTL RTL 811 8111B
Audio l l l
Chip integrated by Realtek Realt ek ALC883, ALC88 3, supports HD 5.1-channel audio-out Or chip integrated integrat ed by Realtek ALC888, ALC888 , supports HD 7.1-chann 7.1-channel el audio-out Vista Premium compliance
IDE l l l
1 IDE port Supports Ultra DMA 66/100 mode Supports PIO, Bus Master operation mode
SATA l l l
4 SATA SATA ports by ICH7 chipset Supports 4 SATA SATA devices Supports storage and data transfers transf ers at up to 300 MB/s
Floppy l l
1 floppy port Supports 1 FDD with 360KB, 720KB, 1.2MB, 1.2MB, 1.44MB and 2.88MB
2
Connectors Back panel - 1 parallel port supporting SPP/EPP/ECP mode - 1 PS/2 mouse port - 1 PS/2 keyboard port - 1 COM port - 1 VGA port - 4 USB 2.0 Ports - 1 LAN jack - 3 flexible audio audio jacks (for ALC883 audio chip) or 6 audio jacks (for ALC888 audio chip) l On-Board Pinheaders / Connectors - 2 USB 2.0 pinheaders pinheaders - 1 CD-In connector connect or - 1 Front Panel Audio pinheader pinheader - 1 SPDIF-Out SPDIF-Ou t pinheader - 1 Chassis Intrusion switch pinheader l
Slots l l l
1 PCI Express x16 slot 1 PCI Express x1 slot 2 PCI slots (Support 3.3V/ 5V PCI bus interface)
Form Factor l
Micro-ATX (24.5cm (24.5c m X 22.5 cm)
Mounting l
6 mounting holes holes
3
REAR PANEL The rear panel provides t he following connectors: Parallel Par allel Port
LAN
Mouse
Line-In RS-Out (optional)
Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
Mic
SS-Out (optional)
HARDWARE SETUP This chapter tells you how to install the CPU, memory modules, and expansion cards, as well as how to setup the jumpers on the mainboard. It also provides the instructions on connecting connecting the peripheral peripheral devices, such as the mouse, keyboard, etc. W hile doing doing the installation, be careful in holding the components and follow the installation procedures.
CPU & Cooler Installation Installation Procedures for LGA775 LGA775 When you are installing the CPU, make sure the CPU has a cooler attached on the top to prevent overheating. Meanwhile, do not forget to apply some thermal paste on CPU before installing the heat sink/cooler fan for better heat dispersion. Follow the steps b elow to install the CPU & cooler corre c orrectly ctly.. Wrong installat in stallation ion will cause the damage of your CPU & mainboard. Introduction to LGA 775 CPU The pin-pad side of LGA 775 CPU.
The surface surf ace of LGA 775 CPU.
1.
The CPU socket has a plastic cap on it to protect the contact from damage. Before you have installed the CPU, always cover it to protect the socket pin.
2.
Remove the cap from lever hinge side.
3.
The pins of socket reveal.
4.
Open the load lever.
5.
Lift the load lever lever up and open the load plate.
6.
After confirming confirm ing the CPU direction for correct mating, mating, put down the CPU in the socket housing frame. Be sure to grasp on the edge of the CPU base. Note that the alignment keys are matched.
4
7.
Visually inspect if the CPU is seated well into the socket. sock et. If not, take out the CPU with pure vertical motion and reinstall.
8.
Cover the load plate onto the package.
9.
Press down the load lever lightly onto the load plate, plate, and then secure the lever with the hook under retention tab.
10. Align the holes on the mainboard with the cooler. Push down the cooler until its four clips get wedged into the holes of the mainboard. 11. Press the four four hooks down to f asten the cooler. cooler. Then rotate the locking switch (refer to the correct direction marked on it) to lock the hooks. 12. Turn over over the mainboard to confirm that that the clip-ends are correctly inserted.
Important: Read the CPU st atus in BIOS. Whenever CPU is not installed, always protect your CPU socket pin with the plastic cap covered to avoid damaging. Mainboard photos shown in this section are for demonstration of the CPU/cooler installation only. The appearance of your mainboard may vary depending on the model you purchase. According to t o the Intel North Nort h Bridge 945GC chipset spec, t his board supports sup ports CPU of FSB 800MHz at maximum by default. However, However, you may let your board running at FSB 1066MHz (Core 2 Duo CPUs) by overclocking and adjusting the CPU FSB frequency in the BIOS : Enter BIOS setup menu and go to [Frequency/ Voltage Control]à[Adjust CPU FSB Frequency]. There you can adjust the value to [266] for the Core 2 Duo CPUs. Please be noted that this is over-spec, and t his overclocking behavior is not recommended and not guaranteed.
Installing Installing Memory Modules 1.
The memory module has only only one notch on the center and and will only fit in the right orientation.
2.
Insert the memory module vertically into the DIMM slot. Then push it in until the golden finger on the memory module is deeply inserted in the DIMM slot. You can barely see the golden finger if the memory module is properly inserted in the DIMM slot.
3.
The plastic clip at each side sid e of the DIMM slot will automatically automatic ally close.
Notch
Volt
5
Important: DDR2 memory modules are not interchangeable with DDR and the DDR2 standard is not backwards compatible. You should always install DDR2 memory modules in the DDR2 DIMM slots. To enable successful system boot-up, always insert the memory modules into the DIMM1 first.
ATX 24-Pin Power Connector: Connecto r: ATX1 ATX1 This connector allows you to connect an ATX 24-pin power supply. To connect the ATX 24-pin power supply, make sure the plug of the power supply is inserted in the proper orientation and the pins are aligned. Then push down the power supply firmly into th e connector. You may use the 20-pin ATX power supply as you like. If you like to use the 20-pin ATX power supply, please plug your power supply along with pin 1 & pin 13 (refer to the image at the right hand).
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON#
+5V
GND
GN D
GND
+5V
GND
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
ATX 12V Power Connector: PWRCONN1
+ 1 2V
+1 2 V
This 12V power connector is used to provide power to the CPU.
GN D
GN D
Important: Make sure that all the connectors are connected to proper ATX power supplies to ensure stable operation of the mainboard. Power supply of 350 watts (and above) is highly recommended for system stability.
Floppy Disk Drive Connector: FDD1 This connector supports supports 360KB, 720KB, 1.2MB, 1.44MB or 2.88MB floppy disk drive.
IDE Connector: IDE1 This connector supports IDE hard disk drives, optical disk drives and other IDE devices. Important: If you install two IDE devices on the same cable, you must configure the drives to cable select mode or separately to master / slave mode by setting jumpers. Refer Ref er to IDE device devic e documentation documentati on supplied suppli ed by the vendors vend ors for f or jumper setting setti ng instructions.
Serial ATA Connector: SATA1/2/3/4 This connector is a high-speed Serial ATA interface port. Each connector can connect c onnect to one Serial Seri al ATA ATA device. Important: Please do not fold the Serial ATA cable into 90-degree angle. Otherwise, data loss may occur during transmission.
6
Fan Power Connectors: CPUFAN1, SYSFAN1 & SYSFAN2
Control Sensor +12V GND GN D Sensor +12V GND
The fan power connectors support system cooling fan with +12V. When connecting the wire to the connectors, always note that the red wire is the positive and should be connected to the +12V; the black wire is Ground and should be connected to GND. If the mainb oard has has a S ystem Hardware Monitor chipset on-board, you must use a specially designed fan with speed sensor to take advantage of the CPU fan control. USB1+
Front USB Connector: JUSB1/ JUSB2
GND
USB1-
This connector, compliant with Intel I/O Connectivity Design Guide, is ideal for connecting high-speed USB interface peripherals such as USB HDD, digital cameras, MP3 players, printers, modems and the like.
N.C.(10) Key,no pin(9)
(2)VCC (1)VCC GND
USB0-
USB0+
S/PDIF-Out Connector: JSPD1 This connector is used to c onnect onnect S/PDIF (Sony & Philips Digital Interconnect Format) interface for digital audio transmission.
VC C
SPDIF
GND
CD-In Connector: CD_IN1 This connector is provided for external audio input. L
R
GND GN D
MIC2_JD
Front Panel Audio Connector: JAUD1
VCC5
This connector allows you to connect the front panel audio and is compliant with Intel I/O Connectivity Connectivity Design D esign Guide.
NC Line_JD(10) Line-out_L(9)
(2)GND (1)MIC_L
Front Panel Connectors: JFP1, JFP2
MIC_R Front to Sense Line-out_R 7
JFP2
Speaker
These connectors are for electrical connection to the front panel switches switches and LEDs. The JFP1 is compliant with Intel Front Panel I/O Connectivity Design Guide.
Power LE D 2 1
10 9
JFP1
-
+
+
-
Power Switch Power LE D
-
+
2 1
Chassis Intrusion Connector: JCI2 This connector connects to the chassis intrusion switch cable. If the chassis is opened, the chassis intrusion mechanism will be activated. The system will record this status and show a warning message on the screen. To clear the warning, you must enter the BIOS utility and clear the record.
7
1 2
CINTRU GND GN D
Reset Switch HD D LED LE D
Clear CMOS Jumper: JBAT1 There is a CMOS RAM onboard that has a power supply from an external battery to keep the data of system configuration. configuration. W ith the CMOS RAM, the s ystem can automatically boot OS every time it is turned on. If you want to clear the system configuration, set the jumper to clear data.
1 2 3
1 2 3
1 2 3
K ee ee p D a ta ta
C l ea e a r D at at a
Important: You can clear CMOS by shorting 2-3 pin while the system is off. Then return to 1-2 pin position. Avoid clearing the CMOS while the system is on; it will damage the mainboard.
PCI (Peripheral Component Interconnect) Express Slot The PCI Express slot supports the PCI Express interface expansion card. The PCI Express x 16 supports up to 4.0 GB/s transfer rate.
The PCI Express x 1 supports up to 250 MB/s transfer rate.
PCI (Peripheral Component Interconnect) Slot
The PCI slot supports LAN card, SCSI card, USB card, and other add-on cards that comply with PCI specifications. Important: When adding or removing expansion cards, make sure that you unplug the power supply first. Meanwhile, read read the th e documentation for the expansion card to c onfigure onfigure any necessary hardware or software settings for the expansion card, such as jumpers, switches or BIOS configuration.
PCI Interrupt Request Routing The IRQ, acronym of interrupt request line and pronounced I-R-Q, are hardware lines over which devices can send interrupt signals to the microprocessor. The PCI IRQ pins are typically connected to the PCI bus pins as follows: Order1
Order2
Order3
Order4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
8
BIOS Setup Power on the c omputer and the s ystem will start POST (Power On Se lf Test) Test) process. When the message below appears on the screen, press
press key key to enter Setup. Press DEL to enter SETUP If the message disappears before you respond and you still wish to enter Setup, restart the system by turning it OFF and On or pressing the RESET button. You may also restart the system by simultaneously pressing , , , and keys. keys.
Main Page
Standard CMOS Features Use this menu for basic system configurations, such as time, date etc. Advanced BIOS Features Use this menu t o setup the items of special enhanced features. Integrated Peripherals Use this menu to specify your settings for integrated peripherals. Power Management Setup Use this menu t o specify your settings for power management. PNP/PCI Configurations Configurations This entry appears if your system supports PnP/PCI. H/W Monitor This entry shows the status of your CPU, fan, warning for overall system status. Frequency/Voltage Control Use this menu t o specify your settings for frequency/voltage frequency/voltage control.
9
Load Fail-Safe Defaults Use this menu to load the BIOS default values that are factory settings for system operations. Load Optimized Defaults Use this menu to load factory default settings into the BIOS for stable system performance operations. BIOS Setting Password Use this menu to set BIOS setting Password. Save & Exit Setup Save changes to CMOS and exit setup. Exit Without Saving Abandon all changes and exit setup. s etup.
10
Frequency/Voltage Control
Current CPU Frequency It shows the current frequency of CPU. Read-only. Current DRAM Frequency Frequency It shows the current frequency of Memory. Read-only. Adjust CPU FSB Frequency This item allows you to manually adjust the CPU FSB frequency. Adjust CPU Ratio This item allows you to adjust the CPU ratio. Adjusted CPU Frequency Frequency It shows the adjusted CPU frequency (FSB x Ratio). Read-only. Advance DRAM Configuration > DRAM CAS# Latency The field controls the CAS latency, which determines the timing delay before DRAM starts a read command after after receiving it. [ 2T] increases system performance while [2.5T] provides more stable system performance. Setting to [By SPD] enables enables DRAM CAS# Latency automatically to be determined by BIOS based on the configurations on the SPD (Serial Presence Detect) EEPROM on the DRAM module. FSB/Memory Ratio This setting controls the ratio of CPU FSB Clock & Memory Frequency to enable the CPU & memory to run at different frequency combinations. combinations. Plea Pl ease se note n ote that the s etting etting options vary according to the CPU FSB Frequency preset. Adjusted DDR Memory Frequency Frequency It shows the adjusted DDR Memory frequency. Read-only. Adjust PCI Frequency This item allows you to select the PCI clock frequency (in MHz) and overclock by adjusting the PCI clock to a higher frequency.
11
Adjust PCIE Frequency This item allows you to select the PCI Express clock frequency (in MHz) and overclock by adjusting the PCI Express clock to a higher frequency. Auto Disable DIMM/PCI Frequency When set to [Enabled], the system will remove (turn off) clocks from empty DIMM and PCI slots to minimize the electromagnetic interference (EMI). Memory/PCI Express Voltage These items allow you to adjust the Memory/PCI Express voltage. Adjusting the voltage can increase the speed. Any changes made to this setting may cause a stability issue, so changing the voltage for long-term l ong-term purpose purpose is NOT recommended r ecommended.. Spread Spectrum When the motherboard!s clock generator pulses, the extreme values (spikes) of the pulses create EMI (Electromagnetic Interference). The Spread Spectrum function reduces the EMI generated by modulating the pulses so t hat the spikes of th e pulses are reduc ed to flatter curves. curves. If you do not have any EMI problem, leave the setting at Disabled for optimal system stability and performance. But if you are plagued by EMI, set to Enabled for EMI reduction. Remember to disable Spread Spectrum if you are overclocking because even a slight jitter can introduce a temporary boost in clock speed which may just cause your overclocked processor processor to lock up. Important: If you do not have any EMI E MI problem, leave the setting at [Disabled] for optimal system system stability and performance. But if you are plagued by EMI, select the value of Spread Spectrum for EMI reduction. The greater the Spread Spectrum value is, the greater the EMI is reduced, and the system will become less stable. For the most suitable Spread Spectrum value, please consult your local EMI regulation. Remember to disable Spread Spectrum if you are overclocking because even a slight jitter can introduce a temporary boost in clock speed which may just cause your overclocked processor processor to lock up.
12
INTRODUCTION F licitations, vous venez d#acqurir une carte m$re des s ries 945GCM5 V2(MS-7267 v4x). & & Les s ries 945GCM5 V2 sont bas es sur les chipsets chipsets Intel 945GC& Intel ICH7 pour & obtenir un syst $me ultra puissant. Destines aux processeurs Intel Core2 C ore2 Duo/ Duo/ Pentium D/ Pentium 4/ Celeron D, les sries 945GCM5 V2 offrent de hautes performances tant aux particuliers qu#aux professionnels.
Schma : Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Paralle l Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) T:RS-Out M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
13
JUSB2
JUSB1
Spcificits: Processeur: &
Supporte les processeurs processeurs Intel Core2 Duo/ Pentium D/ Pentium 4 / C eleron D (LGA 775) 775) (Pour plus d#informations, veuillez visiter http://global.msi.com.tw/index.php?func=cpuform) l
FSB: l
800 / 533 MHz
Chipset: l l
&
North Bridge: chipset chipset Intel 945GC & South Bridge: chipset chips et Intel ICH7
Mmoire: DDR2 400/ 533/ 667 SDRAM (2GB Max) (240pin/ 1.8V) l 2 DDR2 DIMMs (240pin/ (Pour plus d#informations, veuillez visiter http://global.msi.com.tw/index.php?func=testreport) l
LAN: l l
Supporte 10/100 Mb/s Fast Ethernet par Realtek RTL 8101E 8101E Ou supporte 10/100/1000 Fast F ast Ethermet par Realtek RTL 8111B 8111B
Audio: intgr e par Realtek ALC883, supporte 5.1 HD canal audio-sortie Ou puce intgr e par Realtek ALC888, supporte 7.1 HD canal audio-sortie Compatible avec Vista Premium
l Puce l l
IDE: l l l
1 port IDE Supporte le mode Ultra DMA 66/100 Supporte les modes d#oprations PIO et Bus Master
SATA: l l l
4 ports SATA SATA par chipset ICH7 Supporte 4 dispositifs SATA SATA Supporte 1 stockage et un taux de transfert allant jusqu#' 300 MB/s
Disquette: l l
1 port disquette Supporte 1 FDD avec 360KB, 720KB, 1.2MB, 1.44MB et 2.88MB
14
Connecteurs: Panneau arri#re : - 1 port parall $le qui supporte le mode SPP/EPP/ECP - 1 port souris PS/2 - 1 port clavier PS/2 - 1 port COM - 1 port VGA - 4 ports USB 2.0 - 1 jack LAN - 3 jacks audio flexibles (pour la carte m$re qui poss $de la puce audio ALC883) ou 6 jacks audio (pour la carte m$re qui poss $de la puce audio ALC888) Connecteurs intgr s : l Connecteurs - 2 connect eurs USB 2.0 - 1 connecteur CD-in - 1 connecteur Audio Panneau Avant - 1 connect eur Sortie SPDIF - 1 connecteur interrupteur interrupteur de Ch)ssis Intru I ntrusion sion l
Slots : l l l
1 slot PCI Express x16 1 slot PCI Express x1 2 slots PCI (Supportent (Supp ortent l#interface 3.3V/ 5V PCI bus)
Dimensions: l
Micro-ATX (24.5cm (24.5c m X 22.5 cm)
Montage: l
6 trous de montage
15
PANNEAU ANNEAU ARRI%RE: Le panneau arri$re contient les connecteurs suivants: Parallel Par allel Port
LAN
Mouse
Line-In RS-Out (optional)
Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
Mic
SS-Out (optional)
INSTALLATION MAT'RIELLE : Ce chapitre vous donne des indications sur l#installation installation du CPU, d es modules de mmoires, des cartes d#extension, ainsi que le positionnement des cavaliers de la carte m$re. Vous retrouverez retrouverez aussi des instructions pour la connexion des priphriques tels que la s ouris, ouris, le clavier... Lors de l#installation, veuillez vous pr munir contre l#lectricit statique et veuillez suivre les procdures d#installation afin de mettre en place correctement les diff rents composants.
Installation du CPU LGA775 & du Ventilateur : Quand vous installez votre CPU, assurez-vous que le CPU poss$de un syst$me de refroidissement afin d#viter les surchauffes. Si vous ne possdez pas de syst$me de refroidissement, contactez votre revendeur pour vous en procurer un et installez le avant d#allumer l#ordinateur. N#oubliez pas d#utiliser des composants en silicium pour le transfert de chaleur avant d#installer le ventilateur pour une meilleure dissipation. Suivez les tapes suivantes p our installer installer c orrectement orrectement le l e syst$me de refroidissement et le CPU. Une mauvaise installation risque d#endommager votre CPU et votre carte m$re. Introduction du LGA 775 CPU: Le dos du CPY LGA 775.
La surface surf ace du CPULGA 775 :
1. Le socket du CPU porte un couvercle en plastique pour le protger des contacts qui lui causeraient des dommages. Avant d#installer le CPU, toujours couvrir et protger les pins du socket. 2. Enlevez le couvercle couvercle du c+t du levier. 3. Vous apercevez les pins du socket. 4. Soulevez le levier. 5. Soulevez le levier effectif et ouvrez le plat effectif. 6. Apr $s avoir vrifi le bon sens du CPU, dposez le CPU sur le socket. Notez qu#on aligne les broches.
16
7. Inspectez visuellement, si le CPU est bien pos dans la douille. Dans le cas contraire retirez le CPU avec un mouvement vertical et r installez-le. 8. Couvrez le plat effectif sur le paquet. 9. Appuyez lg$rement sur le levier effectif et sur le plat effectif, fixez ensuite le levier avec le crochet sous l#tiquette de conservation. 10. Alignez les tr ous de la cart e avec le ventilateur. ventil ateur. Installez le ventilateur dans les trous de la carte m$re. 11. Appuyez sur les l es crochets pour p our fixer le ventilateur. Puis effectuez une rotation des syst$mes de r tention (voir ventilateur pour le sens de rotation). 12.Retournez la carte m$re pour vous assurer que le ventilateur est correctement install. Important: Lisez le statut du CPU dans le BIOS. Lorsque le CPU n#est pas install, protgez toujours le pin du socket de votre CPU avec le couvercle en plastique pour viter de l#endommager Les photos de la carte m$re pr sentes dans cette section sont uniquement utilises pour la d monstration monstration de l#installation du CPU/ du ventilateur. L#apparence de votre carte m$re peut -tre diff rente selon le mod$le achet. Selon les spcificits du d u chipset Intel North Bridge 945GC, cette carte supporte supporte un CPU de FSB 800MHZ au maximum. Pourtant, vous pouvez permettre ' votre carte c arte de fonctionner ' FSB 1066MHZ (Core 2 Duo CUPs) en overclockant et en ajustant la fr quence CPU FSB dans le BIOS: Entrez dans le menu d#installation du BIOS et allez ' [Frequency/ Voltage Control]à[Adjust CPU FSB Frequency] o vous pouvez ajuster la valeur ' [266] pour le Core 2 Duo CPUs. Veuillez noter que le comportement de votre carte suite ' l#overclocking n#est pas recommand ou garanti.
Installer Installer les Modules de Mmoire : 1. Le module de mmoire ne poss$de qu#une encoche en son centre. Ainsi il n#est possible de monter le module que dans un seul sens. 2. Ins rez verticalement le module de mmoire dans le slot DIMM. Puis appuyez dessus. 3. Le clip en plastique plastiqu e situ de chaque c +t du module va se fermer automatiquement.
Notch
Volt
Important: Les modules de mmoire DDR2 ne sont pas interchangeables avec la DDR et le standard DDR2 n#est pas compatible avec la DDR. Vous devez toujours installer les modules de mmoire DDR2 dans les slots DDR2 DIMM. Pour activer avec succ$s le syst$me de dmarrage, toujours ins rer les modules de mmoires moires dans le DIMM1.
17
Connecteur d(alimentation alimentati on ATX ATX 24-Pin: ATX1 Ce connecteur vous permet de c onnecter onnecter l#alimentation ATX 24-pin. Pour cela, assurez-vous que la prise d#alimentation est bien positionne dans le bon sens et que les pins sont aligns. Enfoncez alors la prise dans le connecteur. Vous pouvez aussi utiliser une alimentation 20-pin selon vos besoins. Si vous souhaitez utiliser alimentation alimentation 20-pin branchez l' avec le pin1 et le pin 13. (r f rez-vous ! l#image du c +t droit).
Connecteur d(alimentation TX12V: PWRCONN1
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON#
+5V
GN D
GN D
GND
+5V
GN D
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
+ 1 2V
+1 2 V
G ND
GND
Le connecteur d#alimentation 12V est utilis pour alimenter le CPU. Important: Assurez-vous Assur ez-vous que tous les connecteurs connect eurs sont relis ' l#alimentation ATX pour assurer un fonctionnement stable de la carte m$re. L#alimentation 350 watts (ou plus) est recommande pour la stabilit du syst$me.
Connecteur Disquette: FDD1 Ce connecteur supporte le lecteur de disquette 360KB, 720KB, 1.2MB, 1.44MB ou 2.88MB.
Connecteur IDE: IDE1 Ce connecteur supporte les disques durs IDE, les disques optiques et d#autres dispositifs IDE. Important: Si vous installez deux dispositifs IDE, vous d evez configurer les lecteurs en mode s lectionn du c )ble ou les configurer en Ma . tre/Esclave tre/Esclave en configurant les cavaliers. Rf rez-vous ' la documentation du dispositif IDE pour les instructions instructions de d e Configuration.
Connecteurs Srial rial ATA ATA:: SATA SATA1/2 1/2/3/ /3/4 4 Ce connecteur Srial ATA ATA est un port avec une interf ace ' haute vitesse. Chaque connecteur peut se connecter ' un dispositif S rial ri al ATA. ATA. Important: Veuillez ne pas tordre le c)ble Srial ATA ' 90 degr s. Cela C ela pourrait l#endommager et entra . ner ner la perte des donnes lors des phases de transfert de celles-ci.
Connecteurs d(alimentation du ventilateur: CPUFAN1, SYSFAN1 & SYSFAN2 Les connecteurs d#alimentation du ventilateur supportent le ventilateur du syst$me avec +12V. Lors de la connexion des c)bles, assurez-vous que le c)ble rouge soit c onnect onnect au +12V et le c )ble noir connect au 0GND 0. Si la carte m$re poss $de un syst $me de gestion intgr , vous devez utiliser un ventilateur ayant ces caractristiques si vous voulez contr +ler le ventilateur du CPU.
18
Control Sensor +12V GND GN D Sensor +12V GND
Connecteur USB en fa*ade: JUSB1/ JUSB2
USB1+ GND
USB1-
&
Ce connecteur, compatible compatible avec Intel I/O Connectivity Design Guide, est idal pour relier les priphriques ' grande vitesse utilisant des interfaces telles que USB HDD, appareils-photo numriques, lecteurs MP3, imprimantes, modems etc.
N.C.(10) Key,no pin(9)
(2)VCC (1)VCC GND
USB0-
USB0+
Connecteur Sortie S/PDIF: JSPD1 J SPD1 Ce connecteur est utilis pour connecter l#interface S/PDIF (Sony & Philips Digital Interconnect Format) pour une transmission numrique audio.
VC C
SPDIF
GND
Connecteur CD-Entr e: CD_IN1 Ce connecteur est utilis pour l#entr e audio externe. L
Connecteur Panneau Audio en fa*ade: JAUD1 Ce connecteur audio du panneau en fa1 ade vous permet de vous connecter au panneau & audio avant et il est compatible avec Intel Front Panel I/O C onnectivity onnectivity Design G uide.
R
GND GN D
MIC2_JD VCC5
NC Line_JD(10) Line-out_L(9)
(2)GND (1)MIC_L
MIC_R Front to Sense Line-out_R 8 7
Connecteurs Panneau Avant: JFP1, JFP2 Les connecteurs sont utiliss pour la connexion lectrique sur le panneau avant et LEDs. JFP1 est compatible avec l#intel Front Panel I/O Connectivity Design Guide.
JFP2
Speaker
Power LE D 2 1
10 9
JFP1
-
+
+
-
Power Switch Power LE D
-
+
Reset Switch HD D LED LE D
2 1
Ch-ssis Intrusion Connector: JCI2
1 2
Ce connecteur est connect au chassis intrusion par le biais d#un cable. Si le ch)ssis est ouvert, le switch en informera le syst$me, qui enregistrera enregistrer a ce statut et affichera un cran d#alerte. Pour effacer ce message d#alerte, vous devez entrer dans le BIOS et dsactiver l#alerte.
CINTRU GND
Clear CMOS Jumper: JBAT1 Le CMOS RAM intgr re1 oit une alimentation d#une batterie externe qui permet permet de garder les d onnes de configuration configuration du s yst$me. Avec Avec le CMOS R AM, le syst s yst$me peut automatiquement dmarrer avec les param$tres personnalis s du BIOS ' chaque fois que le PC est allum. Si vous voulez effacer la configuration du syst$me, utilisez le JBAT1 pour effacer les donnes.
19
1 2 3
1 2 3 K ee eep Da ta ta
1 2 3 C le lea r D at at a
Important: Vous pouvez effacer le CMOS en positionnant le cavalier sur les broches 2-3 lorsque le PC n#est pas allum. Puis il faut remettre le cavalier en position 1-2. Ne surtout pas effacer le CMOS lorsque le PC est allum, cela c ela endommagera endommagera la carte m$re.
Slot PCI Express (Peripheral Component Interconnect) Interconnect) Le slot PCI Express supporte la carte d#extension d#interface interface PCI Express. Le slot PCI Express x16 supporte un taux de transfert jusqu#' 4.0 GB/s.
Le slot PCI Express x1 supporte un taux de transfert jusqu#' 250 MB/s.
Slot PCI (Peripheral Component Interconnect)
Le slot PCI supporte la carte LAN, la c arte SCSI, SCSI, la carte c arte USB, et d#autres cartes ajoutes qui sont conformes aux spcificits PCI. Important: Lorsque vous ajoutez ou retirez une carte d#extension, assurez-vous que le PC n#est pas reli au secteur. Lisez la documentation pour faire les configurations ncessaires du mat riel ou du logiciel de la carte d#extension, extension, tels que les c avaliers, avaliers, les c ommutateurs ommutateurs ou la configuration du BIOS.
PCI Interrupt Request Routing IRQ est l#abr viation de 0interrupt request line4. Les IRQ sont des signaux mis par des matriaux. Les PCI IRQ s ont connects g nralement aux broches PCI bus INT A# ~ INT D# comme c omme ci-dessous: Order1
Order2
Order3
Order4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
20
BIOS Setup Lorsque le PC dmarre, le processus de POST (Power On Self Test) se met en route. Quand le message ci-dessous appara . t ' l#cran, appuyez sur pour pour acc der au Setup. Si le message dispara . t avant que vous n#ayez appuy sur la touche, redmarrez le PC avec l#aide du bouton RESET. Vous pouvez aussi redmarrer en utilisant la c ombinaison des touches touches ,, , , et . .
Page Principale
Standard CMOS Features : Cette fonction permet le paramtrage des lments standard du BIOS tels que l#heure, etc. Advanced BIOS Features : Cette fonction permet de paramtrer des lments avancs du BIOS. Integrated Peripherals Utilisez ce menu pour paramtrer les priphriques intgr s. Power Management Setup : Utilisez ce menu pour appliquer vos choix en ce qui concerne l#alimentation. PNP/PCI Configurations : Appara . t si votre syst$me supporte PNP/PCI. H/W Monitor : Permet de voir les statuts du CPU, du ventilateur, et de l#alarme alarme du s yst$me. Frequency/Voltage Control Utilisez ce menu pour configurer vos param$tres pour le c ontr +le de la fr quence/voltage.
21
Load Fail-Safe Defaults : Utilisez ce menu pour charger les valeurs par dfaut du BIOS qui sont les param$tres pour l#opration du syst$me. Load Optimized Defaults : Charge les param$tres optimaux du BIOS par dfauts afin d#avoir un syst$me plus stable. BIOS Setting Password : Utilisez ce menu pour entrer un mot de passe pour le BIOS. Save & Exit Setup : Les modifications sont enregistr es dans le CMOS avant la sortie du Setup. Exit Without Saving : Les modifications sont abandonnes avant la sortie du Setup.
22
Fr quence/Voltage Contr 0le :
Current CPU Frequency : Cette ic +ne montre la fr quence actuelle du CPU. Lecture uniquement. Current DRAM Frequency : Cette ic +ne montre la fr quence actuelle de la Mmoire. Lecture uniquement. Adjust CPU FSB Frequency : Cette fonction vous permet d#ajuster manuellement la fr quence du CPU FSB. Adjust CPU Ratio : Cette fonction vous permet d#ajuster le ratio du CPU. Adjusted CPU Frequency : Il montre la fr quence ajuste du CPU (FSBxRatio). Lecture uniquement. Advance DRAM Configuration > DRAM CAS# Latency : Cette ic +ne contr +le la latence CAS, qui dtermine le dlai avant que le DRAM c ommence ' lire la commande apr $s l #avoir re1 u. [2T] augmente la performance du syst$me alors que [2.5T] fournit une performance plus stable. Lorsqu#elle est r gl en [By SPD], la latence DRAM CAS# est dtermin e automatiquement par le BIOS qui est bas sur les configurations configurations du SPD (Serial Presence Detect) EEPROM sur le module DRAM. FSB/Memory FSB/Memory Ratio R atio : Cette fonction vous permet d#ajuster manuellement manuellement le ratio FSB de la mmoire. Adjusted DDR Memory Frequency : Il montre la fr quence ajuste DDR de la m moire. Lecture uniquement. Adjust PCI Frequency : Cette ic +ne vous permet de s lectionner la fr quence de l#horloge PCI (en MHz) et d#overclocker en ajustant l#horloge PCI ' une fr quence plus leve.
23
Adjust PCIE Frequency : Cette ic +ne vous permet de s lectionner la fr quence de l#horloge PCI Express (en MHz) et d#overclocker en ajustant l#horloge PCI Express ' une fr quence plus leve. Auto Disable DIMM/PCI Frequency : Quand il en aura la permission, le syst$me teindra les horloges des fentes vides des DIMM/PCI pour r duire au minimum l'interf rence lectromagn tique (EMI). Memory/PCI Express Voltage : Ces fonctions vous permettent d#ajuster le voltage de la Mmoire/PCI Express. Ajuster le voltage peut accro . tre tre la vitesse. Tout changement effectu sur ce r glage peut causer ' terme une instabilit, donc il n#est pas recommand de changer le voltage ' long terme. Spread Spectrum : Les cartes m$res cr ent des interf rences lectromagn tiques (EMI - Electromagnetic Electromagnetic Interference). La fonction Spread Spectrum r duit ces EMI. Si vous n#avez pas de probl$me d#EMI, laissez l#option sur Disabled, ceci vous permet d#avoir une stabilit du syst $me et des performances optimales. Dans le cas contraire, choisissez Enabled pour r duire les EMI. N#oubliez pas de dsactiver cette fonction si vous voulez faire de l#overclocking, afin d#viter tout probl$me. Important : Si vous n#avez pas de probl$me d#EMI, laissez l#option option sur Disable, ceci vous permet d#avoir une stabilit du syst$me et des performances optimales. Dans le cas contraire, choisissez Spread Spectrum pour r duire les EMI. Plus la valeur Spread Spectrum est importante, plus les EMI sont r duites, et le syst$me devient moins stable. Pour la valeur Spread Spectrum la plus convenable, veuillez consultez le r $glement EMI local. N#oubliez pas de dsactiver la fonction Spread Spectrum si vous -tes en train d #overclocker parce que m-me un battement lger peut causer un accroissement accroissement temporaire de la vitesse de l#horloge qui verrouillera votre processeur overclock.
24
EINLEITUNG Danke, dass Sie das 945GCM5 9 45GCM5 V2 Series (MS-7267 v4.x) Micro-A Micro-ATX TX Mainboard M ainboard gewhlt # # haben. Das 945GCM5 V2 Series basiert auf dem Intel 945GC & Intel ICH7 Chipsatz und erm$glicht so ein optimales und effizientes System. Entworfen, um den hochentwickelten # Intel Core2 Duo/ Pentium D/ Pentium 4 / Celeron D Prozessoren zu unterst&tzen, stellt das 945GCM5 V2 Series die ideale L$sung zum z um Aufbau eines professionellen Hochleistungsdesktopsystems dar.
Layout Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Paralle l Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) T:RS-Out M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
25
JUSB2
JUSB1
SPEZIFIKATIONEN Prozessoren l Unterst &tzt
#
Intel Core2 Duo/ Pentium D/ Pentium 4/ Celeron D Prozessoren P rozessoren f &r Sockel
LGA 775 (Weitere (Weitere CPU Informationen Informationen finden f inden Sie unter http://global.msi.com http://global.msi.com.tw/index .tw/index.php?func=cpufor .php?func=cpuform) m)
FSB (Front-Side-Bus) l
800 / 533 MHz
Chipsatz l North-Bridge:
#
Intel 945GC Chipsatz # l South-Bridge: Intel ICH7 Chipsatz
Speicher DDR2 400/ 533/ 667 SDRAM (max. 2GB) 2GB) l 2 DDR2 DIMMs (240Pin / 1.8V) (Weitere Informationen zu kompatiblen Speichermodulen finden Sie unter http://global.msi.com.tw/index.php?func=testreport) l
LAN Unterst&tzt 10/100 Mb/s Fast E thernet &ber Realtek RTL 8101E R ealtek RTL 8111B 8111B l Unterst &tzt 10/100/1000 Mb/s Fast Eth ermet &ber Realtek l
Audio Chip &ber Realtek R ealtek ALC883, unterst&tzt 5.1- Kanal K anal HD Audio-Ausgang R ealtek ALC888, unterst&tzt 7.1- Kanal K anal HD Audio-Ausgang l Onboard Chip &ber Realtek l Vista Premium Ready l Onboard
IDE 1 IDE Port Port l Unterst &tzt die Betriebmodi Ultra DMA 66/100 l Unterst &tzt PIO, Bus Mastering l
SATA Vier SATA SATA Ports &ber ICH7 Chipsatz l Unterst &tzt bis zu vier SATA Ger te l Unterst &tzt Daten&bertragungsraten von bis zu 300 MB/s l
Diskette 1 Disketten Disketten Anschluss l Unterst &tzt 1 Diskettenlaufwerk mit 360KB, 720KB, 1.2MB, 1.44MB und 2.88MB l
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Anschlsse Hintere Ein-/ und Ausg#nge - 1 Parallele Parallel e Schnittstelle, Unterst&tzt die B etriebsmodi etriebsmodi SPP/EPP/ECP - 1 PS/2 Mausanschluss - 1 PS/2 Tastaturanschluss - 1 COM Port - 1 VGA Port - 4 USB 2.0 Anschl&sse - 1 LAN Buchse - 3 flexible Audiobuchs en (f &r 5.1 Audio Kanal mit Realtek ALC883 Chipsatz) Chipsatz) oder 6 Audiobuchsen (f &r 7.1 Audio Kanal mit Realtek ALC888 Chipsatz) l On-Board Stiftleiste / Anschlsse - 2 USB 2.0 Stiftleisten - 1 CD Stiftleiste f &r Audio Eingang - 1 Audio Audi o Stiftleiste f &r Gehuse Audio Ein-/ Ausgnge - 1 SPDIF- Ausgang Stiftleiste - 1 Gehusekontaktschalter l
Schnittstellen l l l
1 PCI Express x16 Schnittstelle Schnittst elle 1 PCI Express x1 Schnittstelle 2 PCI Schnittstellen (Unterst&tzt 3.3V / 5V PCI Bus Interface)
Form Faktor l
Micro-ATX (24.5cm (24.5c m X 22.5 cm)
Mountage l 6
Montagebohrungen
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Hinteres Anschlusspanel Anschlusspanel Das hintere Anschlusspanel verf > &ber f olgende Anschl Anschl&sse: Parallel Par allel Port
LAN
Mouse
Line-In RS-Out (optional)
Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
Mic
SS-Out (optional)
HARDWARE SETUP Dieses Kapitel informiert Sie dar &ber, wie Sie die CPU, Speichermodule und Erweiterungskarten einbauen, des weiteren dar &ber, wie die Steckbr &cken auf dem Mainboard gesetzt werden. Zudem bietet es Hinweise darauf, wie Sie Peripherieger te anschlie(en, wie z.B. Maus, Tastatur, usw. Handhaben Sie die Komponenten whrend des Einbaus vorsichtig und halten Sie sich an die vorgegebene Vorgehensweise beim Einbau.
CPU & Khler Einbau f r Sockel LGA775 Wenn Sie die CPU einbauen, stellen Sie bitte sicher, dass Sie auf der CPU einen K&hler anbringen, um ) berhitzung zu vermeiden. Vergessen Sie nicht, etwas Siliziumwrmeleitpaste auf die CPU aufzutragen, bevor Sie den Prozessork&hler installieren, um eine Ableitung der Hitze zu erzielen. Folgen Sie den Schritten unten, um die CPU und den K&hler ordnungsgem ordnungsgem( zu installieren. installieren. Ein fehlerhafter Einbau f &hrt zu Schden an der CPU und dem Mainboard. Erkl#rung zur LGA 775 CPU Die Pin-Seite Pin-S eite der LGA 775 CPU.
Die Obserseite Obs erseite der LGA 775 CPU.
1.
Der CPU-Sockel besitzt zum Schutz eine Plastikabdeckung. Plastikabdeckung. Lassen Sie vor der Installation diese Schutzkappe auf dem Sockel um Schden zu vermeiden.
2.
Entfernen Sie zuerst die Schutzkappe Schutzkap pe wie abgebildet in Pfeilrichtung.
3.
Sie sehen jetzt die Pins des Sockels.
4.
+ffnen Sie den Sockelverschlusshebel.
5.
Klappen Sie den Hebel ganz auf und $ffnen Sie die
28
Metallverschlussklappe. 6.
Vergewiss Vergewissern ern Sie sich anhand der Justiermarkierungen Justi ermarkierungen und dem gelben Dreieck, da( die CPU in der korrekten Position Position ist. Setzen Sie anschlie(end die CPU in den Sockel.
7.
Begutachten Sie, ob die CPU richtig im Sockel sitzt. Falls nicht, ziehen Sie die CPU durch eine rein vertikale Bewegung wieder heraus. Versuchen Sie es erneut.
8.
Schlie(en Sie die d ie Abdeckung Abdeckung des d es Sockels.
9.
Dr &cken Sie den Verschlusshebel mit leichtem Druck nach unten und arretieren Sie den Hebel unter dem R&ckhaltehaken des C PU-Sockels.
10. F&hren Sie den CPU-K&hler &ber den CPU-Sockel und positionieren Sie die Arretierungsstifte des K&hlers &ber die daf &r vorgesehenen L$cher des Mainboards. Mainboards. Dr &cken Sie den K&hler nach unten bis die Stifte in den L$chern eingerastet sind. 11. Dr &cken Sie die vier Stifte nach unten um den K&hler zu arretieren. Drehen Sie dann jeweils den Verschluss der Stifte (Richtung ist auf dem K&hler markiert). 12. Drehen Sie das Mainboard um und vergewiss ern Sie sich, dass das der K&hler korrekt i nstalliert nstalliert ist.
Wichtig: Pr &fen Sie die Status der CPU im BIOS. Wenn keine CPU installiert ist, sch&tzen Sie immer den CPU-Sockel durch die Plastikabdeckung. Die Mainboard Fotos, die in di esem Abschnitt Abschnitt gezeigt werden, sind f &r Demonstration der CPU/ K&hler Installation. Das Aussehen Ihres mainboard kann abhangig von dem Modell schwanken, das Sie kaufen. Nach den Intel Spezifikationen luft der 945GC Chipsatz mit einem maximalen FSB von 800MHz. Mit einem Eintrag im BIOS lsst sich der FSB erh$hen, um Intel Core 2 Duo Prozessoren mit einem FSB von 1066MHz betreiben zu k$nnen. Navigieren Sie im BIOS zu [Frequency/ Voltage Control]à[Adjust CPU FSB Frequency]. Setzen Sie hier den Wert von 200 auf 266 MHz.
29
Vorgehensweise beim Einbau von Speicher Modulen 1.
Die Speichermodule haben nur eine eine Kerbe in der der Mitte des Moduls. Sie passen nur in einer Richtung in den Sockel.
2.
Setzen Sie den DIMM- Speicherbau Speicherbaustein stein senkrecht in den den DIMM- Sockel, dann dann dr &cken Sie ihn hinein, bis die goldenen Kontakte tief im Sockel sitzen. Wenn das Speichermodule richtig im DIMM Steckplatz eingesetzt wird, k$nnen Sie den goldenen Finger kaum sehen.
3.
Die Plastikklammern an den Seiten des DIMM- Sockels schlie(en sich automatisch.
Notch
Volt
Wichtig: DDR2 und DDR k$nnen nicht untereinander getauscht werden und der Standard DDR2 ist nicht r &ckw rtskompatibel, rtskompatibel, installieren Sie DDR2 Speichermodule Speichermodule stets in DDR 2 DIMM Slots und DDR2 Speichermodule stets in DDR2 DIMM Slots. Um einen sicheren Systemstart zu gewhrleisten, best&cken Sie immer DIMM 1 zuerst. z uerst.
ATX 24-Pin Stromanschluss: Stromanschl uss: ATX1 ATX1 Hier k$nnen Sie ein ATX 24-Pin Netzteil anschlie(en. Wenn Sie die Verbindung herstellen, stellen Sie sicher, dass der Stecker in der korrekten Ausrichtung eingesteckt wird und die Pins ausgerichtet sind. Dr &cken Sie dann den Netzteilstecker Netzteilstecker fest in den Steckersockel. Sie k$nnen auch ein 20-Pin ATX Netzteil verwenden, wenn Sie m$chten. Wenn Sie ein 20-Pin ATX Netzteil einsetzen m$chten, stecken Sie bitte Ihr Netzteil beginnend bei den Pins 1 und 13 ein (Bitte informieren Sie sich auf rechte Seite von Bild).
ATX 12V Stromanschluss: PWRCONN1 Dieser 12V Stromanschluss wird verwendet, um die CPU mit Strom zu versorgen.
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON#
+5V
GND
GN D
GND
+5V
GND
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
+ 1 2V
+1 2 V
GN D
GN D
Wichtig: Stellen Sie die Verbindung aller drei Anschl&sse mit einem angemessenem ATX Netzteil sicher, um den stabilen Betrieb des Mainboards sicher zu stellen. Netzteile mit 350 Watt (und mehr) werden aus Gr &nden der Systemstabilitt dringend empfohlen.
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Anschluss des Diskettenlaufwerks: FDD1 Das Mainboard verf > &ber einen Standarda St andardanschluss nschluss f &r Diskettenlaufwerke mit 360 KB, 720 KB, 1,2 MB, 1,44 MB oder 2,88 MB Kapazitt.
IDE Anschluss: IDE1 Am Anschluss k$nnen bis zu 2 IDE Festplatten, optische Laufwerke und andere Ger te angeschlossen werden. Wichtig: Verbinden Sie zwei Laufwerke &ber ein Kabel, m&ssen Sie das zweite Laufwerk im Slave-Modus konfigurieren, indem Sie entsprechend den Jumper setzen. Entnehmen Sie bitte die Anweisungen zum Setzen des Jumpers der Dokumentation der Festplatte, die der Festplattenhersteller zur Verf &gung stellt.
Serial ATA Anschlsse: SAT SATA1/2/3/4 A1/2/3/ 4 Der Anschluss ist eine Hochgeschwindigkeits Schnittstelle der Serial ATA . An jeden Anschluss kann k ann eine Serial Seri al ATA ATA Ger t angeschlossen werden. Wichtig: Bitte falten Sie das Serial ATA Kabel nicht in einem Winkel von 90 Grad. da dies zu Datenverlusten whrend der Daten&bertragung bertragung f &hrt.
Stromanschlsse f r Lfter: CPUFAN1, SYSFAN1 & SYSFAN2 Die Netzteill&fter Anschl&sse unterst&tzen aktive Systeml&fter mit +12V. Wenn Sie den Stecker mit dem Anschluss verbinden, sollten Sie immer darauf achten, dass der rote Draht der positive Pol ist und mit +12V verbunden werden sollte, der schwarze Draht ist der Erdkontakt und sollte mit GND verbunden werden. Besitzt Ihr Mainboard einen Chipsatz zur )berwachung der Systemhardware und Steuerung der L&fter, dann brauchen Sie einen speziellen L&fter mit Tacho, um diese Funktion zu nutzen.
USB Frontanschluss: JUSB1/ JUSB2
Sensor +12V GND
USB1+ USB1#
Der Anschluss entspricht den Richtlinien des Intel Front Panel I/O Connectivity Design Guide, und ist bestens geeignet, Hochgeschwindigkeits- USBPeripherieger te anzuschlie(en, wie z.B. USB Festplattenlaufwerke, Digitalkameras, MP3-Player, Drucker, Modems und hnliches.
31
Control Sensor +12V GND GN D
GND N.C.(10) Key,no pin(9)
(2)VCC (1)VCC USB0-
GND
USB0+
S/PDIF- Ausgang: Ausgang: JSPD1 Die SPDIF (Sony & Philips Digital Interconnect Format) Schnittstelle wird f &r die )bertragung digitaler Audiodaten Audiodat en verwendet.
VC C
SPDIF
GND
CD- Eingang: CD_IN1 Dieser Anschluss wird f &r externen Audioeingang Audioeingang zur Verf &gung gestellt.
L
GND GN D
R
MIC2_JD
Audioanschluss des Frontpanels: Frontpanels: JAUD1
VCC5
Der Audio Frontanschluss erm$glicht den Anschluss von Audioein- und un d -ausgngen eines Frontpanels. Der Anschluss entspricht # den Richtlinien des Intel Front Panel I/O Connectivity Connectivity Design D esign Guide.
NC Line_JD(10) Line-out_L(9)
(2)GND (1)MIC_L
Frontpanel Anschlsse: JFP1, JFP2 Die Anschl&sse f &r das Frontpanel dienen zum Anschluss der Schalter und LEDs des d es Frontpaneels. Frontpan eels. # JFP1 erf &llt die Anforderungen des Intel Front Panel I/O Connectivity Design Guide.
MIC_R Front to Sense Line-out_R
8 7
JFP2
Speaker
Power LE D 2 1
10 9
JFP1
-
+
+
-
Power Switch Power LED LE D
-
+
Reset Switch HDD HD D LED LE D
2 1
Geh#usekontaktschalter: JCI2 Dieser Anschluss wird mit einem Kontaktschalter verbunden. Wird das Gehuse ge$ffnet, wird der Schalter geschlossen und das System zeichnet dies auf und gibt auf dem Bildschirm eine Warnung aus. Um die Warnmeldung zu l$schen, muss das BIOS aufgerufen aufgerufen und die Aufzeichnung gel$scht werden.
32
1 2
CINTRU GND
Steckbr cke zur CMOS- L %schung: JBAT1 Der Onboard CMOS Speicher (BIOS), enthlt Grundinformationen Grundinformationen sowie s owie erweite Eistellungen des Mainboards. Der CMOS Speicher wird &ber eine Betterie mit Strom versotgt, damit die Daten nach Abschalten des PC-systems PC-systems erhalten erhalten bleiben. Wieterhin sind Informationen f &r den Start des Systems in dem Speicher hinterlegt. hinterlegt. Sollten Sie Fehlermeldungen Fehlermeldungen whrend des Startvorganges erhalten, kann ein Zur &cksetzen des CMOS Speichers in den urspr &nglichen Werkszustand helfen. Dr &cken Sie dazu leicht den Schalter.
1 2 3
1 2 3 K ee ee p D a ta ta
1 2 3 C l ea e a r D at at a
Wichtig: Sie k$nnen den CMOS l$schen, indem Sie die Pins 2-3 verbinden, whrend das System ausgeschaltet ist. Kehren Sie danach zur Pinposition 1-2 zur &ck. L$schen Sie den CMOS nicht, solange das System angeschaltet ist, dies w&rde das Mainboard beschdigen.
PCI (Peripheral Component Interconnect) Express Slot Der PCI Express Slot unterst&tzt die PCI Express Schnittstelle Erweiterungskarten. Der PCI Express x 16 -fach unterst&tzt ) bertragungsraten von 4.0 GB/sek.
Der PCI Express x 1 -fach unterst&tzt ) bertragungsraten von 250 MBit/Sek.
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PCI (Peripheral Component Interconnect) Slot
Die PCI Steckpltze unterst&tzt LAN Karte, SCSI Karte, USB Karte u nd andere Zusatzkarten cards,die mit PCI Spezifikationen &bereinstimmen. Wichtig: Stellen Sie vor dem Einsetzen oder Entnehmen von Karten sicher, dass Sie den Netzstecker gezogen haben. Studieren Sie bitte die Anleitung zur Erweiterungskarte, um jede notwendige Hard Har d - oder Softwareeinstellung f &r die Erweiterungskarte Erweiterungskarte vorzunehmen, vorzunehmen, sei es an Steckbr c ken (!J umpern-), Schaltern oder im BIOS.
PCI Interrupt Request Routing Die IRQs (Interrupt Request Lines) sind Hardwareverbindungen, Hardwareverbindungen, &ber die Ger te Interruptsignale Interruptsignale an den Prozessor senden k$nnen. Die PCI IRQ Pins sind typischer Weise in der folgendenArt mit PCI Bus Pins verbunden:
Reihenfolge1
Reihenfolge2
Reihenfolge3
Reihenfolge4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
34
BIOS Setup Nach dem Einschalten beginnt der Computer den POST (Power On Self Test . Selbst&berpr &fung nach Anschalten). Sobald die Meldung unten erscheint, dr &cken ck en Sie die Tast Taste e (), um das Setup aufzurufen. Press DEL to enter SETUP Wenn die Nachricht verschwindet, bevor Sie reagieren, und Sie m$chten immer noch ins Setup, starten Sie das System neu, indem Sie es erst AUS- und danach wieder ANSCHALTEN, oder die -RESET/-Taste am Gehuse bettigen. Sie k$nnen das System au(erdem neu starten, indem Sie gleichzeitig die Tasten , und dr &cken (bei manchen Tastaturen Ctrl>, und ).
Main Page
Standard CMOS Features In diesem Men& k$nnen Sie die d ie Basiskonfiguration Basiskonfiguration Ihres Systems S ystems anpassen, so z.B. Uhrzeit, Datum us w. Advanced BIOS Features Verwenden Sie diesen Men&punkt, um AMI- eigene weitergehende Einstellungen an Ihrem System vorzunehmen. Integrated Peripherals Verwenden Sie dieses Men&, um die Einstellungen f &r in das Board integrierte Peripherieger te vorzunehmen. Power Management Setup Verwenden Sie dieses Men&, um die Einstellungen f &r die Stromsparfunktionen vorzunehmen. PNP/PCI Configurations Configurations Dieser Eintrag erscheint, wenn Ihr System Plug and Play- Ger te am PCI-Bus unterst&tzt.
35
H/W Monitor Dieser Eintrag zeigt den Status der CPU, des L&fters und allgemeine Warnungen zum generellen Systemstatus. Frequency/Voltage Control Hier k$nnen Sie Einstellungen zu Frequenzen und Spannungen vornehmen. Load Fail-Safe Defaults In diesem Men& k $nnen Sie eine stabile, werkseitig gespeicherte Einstellung des BIOS Speichers laden. N ach Anwhlen des Punktes sichern Sie Si e die 0 nder ungen und starten das System neu. Load Optimized Defaults Hier k$nnen Sie die B IOS- Werkseinstellungen Werkseinstellungen f &r stabile st abile Systemleistung Systemleistung laden. BIOS Setting Password Verwenden Sie dieses Men&, um das Kennwor K ennwortt f &r das BIOS einzugeben. Save & Exit Setup Abspeichern der BIOS- 0nderungen im CMOS und verlassen verlassen des BIOS. Exit Without Saving Verlassen des BIOS2 ohne Speicherung, vorgenommene 0nderungen verfallen.
36
Frequency/Voltage Control
Current CPU Frequency Zeigt die derzeitige Frequenz der CPU. Nur Anzeige. Current DRAM Frequency Frequency Zeigt die derzeitige Frequenz des Speichers. Nur Anzeige. Adjust CPU FSB Frequency Dieser Eintrag erlaubt die manuelle Einstellung des Front Side Buses f &r die CPU. Adjust CPU Ratio Hier k$nnen Sie die CPU-Taktrelation angeben. Adjusted CPU Frequency Frequency Zeigt die verstellte Frequenz der CPU (FSB x Ratio). Nur Anzeige. Advance DRAM Configuration > DRAM CAS# Latency Kontrolliert die Latenz des Spaltenadresssignals, die die Verz$gerung im Timing (in Taktzyklen) bestimmt, die zwischen der Annahme und Ausf &hrung eines Lesebefehls durch den RAM liegt. [2T] steigert die Systemleistung am deutlichsten, whrend [2.5T] das h$chste Ma( an Stabilitt garantiert. Die Einstellung [By SPD] erm$glicht die automatische Erkennung des DRAM CAS# Latency durch das BIOS auf Basis der Einstellungen im SPD (Serial Presence Presence Detect D etect)) EEPROM auf dem DRAM Modul. FSB/Memory Ratio Hier k$nnen Sie die FSB-/Speicher-aktrelation angeben. Adjusted DDR Memory Frequency Frequency Zeigt die verstellte Frequenz des DDR Speichers. Nur Anzeige. Adjust PCI Frequency Gestattet die Wahl der PCI Taktfrequnez (in MHz) und die )bertaktung, durch Einstellung eines h$heren PCI Taktes.
37
Adjust PCIE Frequency Gestattet die Wahl der PCI Express Taktfrequnez (in MHz) und die ) bertaktung, durch Einstellung eines h$heren PCI Express Taktes. Auto Disable DIMM/PCI Frequency Lautet die Einstellung auf [Enabled] (eingeschaltet), deaktiviert das System die Taktung leerer PCI Sockel, um die Elektromagnetische St$rstrahlung (EMI) zu minimieren. Memory/PCI Express Voltage Diese Optionen erlauben Ihnen, die Spannung des Speicher /PCI Express anzupassen. Die Spannung des DDR anzuheben, kann diesen beschleunigen. Jede 0 nderung dieser Option kann zu Stabilittsproblemen f &hren, deswegen wird von einer langfristigen 0nderung der DDR Spannung ABGERATEN. Spread Spectrum Pulsiert der Taktgenerator des Motherboards, erzeugen die Extremwerte (Spitzen) der Pulse EMI (Elektromagnetische Interferenzen). Die Spread Spectrum Funktion reduziert die erzeugten EMI, indem die Pulse so moduliert werden, das die Pulsspitzen zu flacheren Kurven reduziert werden.. Wichtig: Sollten Sie keine Probleme mit Interferenzen haben, belassen Sie es bei der Einstellung [Disabled] (ausgeschaltet), um bestm$gliche Systemstabilitt und -leistung zu gewhrleisten. Stellt f &r sie EMI ein Problem dar, whlen Sie die gew&nschte Bandbreite zur Reduktion der EMI. Je gr $( $(er Spread Spectrum Wert ist, desto gr $( $(er nimmt der EMI ab, und das System wird weniger stabil. Bitte befragen Sie Ihren lokalen EMI Regelung zum meist passend Spread Spectrum Wert. Denken Sie daran Spread Spectrum zu deaktivieren, wenn Sie &bertakten, da sogar eine leichte Schwankung eine vor &bergehende Taktsteigerung erzeugen kann, die gerade ausreichen mag, um Ihren &bertakteten Prozessor zum einfrieren zu bringen.
38
"#%#&'# !"$%'"(*+ ,"- /" ,01%( -*-23+5%6 8!"20 -3(** 945GCM5 V2 (MS-7267 v4.x) Micro-ATX. 9!: 5"*1%!33 ;==3>2*,5%6 ("1%20 -*-23+0 -3(*: 945GCM5 V2 @ @ */$%2%,!35" 5" %-5%,3 ?*8-32%, Intel 945GC & Intel ICH7. A*-23+5": 8!"2", @ ("/("1%2"55": '!: -%,(3+355%$% 8(%C3--%(%, Intel Core2 Duo/ Pentium D/ Pentium 4 / Celeron D, %13-83?*,"D2 ,0-%>ED 8(%*/,%'*23!G5%-2G 5"-2%!G50H 8!"2=%(+.
()+,)&-. /'/-#+&)1 ,34-. Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Paralle l Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) T:RS-Out M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
39
JUSB2
JUSB1
6484:-#8'/-':' ;8)<#//)8 @
J%''3(K*,"D2-: 8(%C3--%(0 Intel Core2 Duo/ Pentium D/ Pentium 4/ Celeron D LGA 775 (9!: 8%!E?35*: 5%,0H -,3'35*6 % CPU 8%-32*23 -"62 http://global.msi.com http://global.msi.com.tw/index .tw/index.php?func=cpufor .php?func=cpuform) m) l
FSB l
800 / 533 533 LNC
=',/#l l
@
A3,3(506 +%-2: Intel 945GC @ OK506 +%-2: Intel ICH7
;4+>-? DDR2 400/ 533/ 667 SDRAM (2N L">-) l 2 -!%2" DDR2 DIMM (240- >%52/ 1.8P) (R" '%8%!535*:+* > -,3'35*:+ > -,3'35*:+ % 8%''3(K*,"3+0H +%'E!:H 8%-32*23 -"62 http://global.msi.com.tw/index.php?func=testreport) l
LAN l l
J%''3(K>" 10/100 L1/- Fast Ethernet (Realtek RTL 8101E) Et hermet (Realtek (Real tek RTL 8111B) 8111B) *!* J%''3(K>" 10/100/1000 L1/- Fast Ethermet
@B%') l l l
SE'*% SE'*% >%'3> Realtek ALC883, 8%''3(K*,"3+06 HD 5.1->"5"!G506 "E'*% ,0H%' R ealtek ALC888, ALC888, 8%''3(K*,"3+06 HD 7.1- >"5"!G506 "E'*% ,0H%' U!* SE'*% U!* SE'*% >%'3> Realtek A%,+3-2*+ -% -83C*=*>"C*36 Vista Premium
IDE l 1 l l
IDE 8%(2 J%''3(K>" (3K*+" Ultra DMA 66/100 J%''3(K>" (3K*+%, ("1%20 PIO, Bus Master
SATA l l l
V320(3 SATA 8%(2" , ?*8-323 ICH7 J%''3(K*,"D2-: ?320(3 E-2(%6-2," SATA J%''3(K>" ->%(%-2* 83(3'"?* '"550H '% 300 L/-
D3),,' l l
1 =!%88* 8%(2 J%''3(K*,"32-: 1 FDD - 360W, 720 W, 1.2L, 1.44 L * 2.88 L
40
E4GH#+. I4%&>> ,4? - 1 8"("!!3!G506 8%(2 - 8%''3(K>%6 (3K*+" SPP/EPP/ECP - 1 PS/2 8%(2 '!: 8%'>!D?35*: +0X* - 1 PS/2 8%(2 '!: 8%'>!D?35*: >!",*"2E(0 - 1 COM 8%(2 - 1 VGA 8%(2 - 4 8%(2" USB 2.0 - 1 LAN ("/Y3+ - 3 8%(2" "E'*% ( '!: -*-23+5%6 8!"20 - "E'*% >%'3>%+ ALC883) *!* 6 8%(2%, "E'*% ('!: -*-23+5%6 8!"20 - "E'*% >%'3>%+ ALC888) l E4GH#+. &4 /'/-#+&)1 ,34-# - 2 ("/Y3+" USB 2.0 - 1 >%553>2%( CD-In - 1 8%(2 /,E>%,0H ("/Y3+%, 83(3'536 8"53!* - 1 SPDIF-Out ("/Y3+ - 1 ("/Y3+ '"2?*>" %2>(0,"5*: >%(8E-" l
J3)-. 1 PCI Express x16 -!%2 l 1 PCI Express x1 -!%2 l 2 PCI -!%2" (J%''3(K>" *523(=36-" 3.3P/ 5P PCI X*50) l
D)8+ L4:-)8 l Micro-ATX
(24.5-+ X 22.5 -+)
(8#,3#&'# l
6 %2,3(-2*6 '!: >(38!35*:
41
I4%&>> ,4? R"'5:: 8"53!G *+332 -!3'EDZ*3 ("/Y3+0: Parallel Par allel Port
LAN
Mouse
Line-In RS-Out (optional)
Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
Mic
SS-Out (optional)
M/-4&)":4 )N)8B%)"4&'> [2" $!"," 8%-,:Z35" ,%8(%-"+ E-2"5%,>* 8(%C3--%(", +%'E!36 8"+:2*, 8!"2 ("-X*(35*: , " 2">K3 E-2"5%,>3 83(3+0?3> 5" -*-23+5%6 8!"23. P $!",3 2">K3 ("-->"/0,"32-: % 2%+, >"> 8%'>!D?"2G ,53X5*3 E-2(%6-2," , 2">*3 >"> +0XG, >!",*"2E(" * 2.'. J(* E-2"5%,>3 %1%(E'%,"5*: 1E'G23 ,5*+"23!G50 , -!3'E623 E>"/"5*:+ 8% E-2"5%,>3.
M/-4&)":4 ,8)<#//)84 LGA 775 ' "#&-'3>-)84 P% */13K"5*3 83(3$(3," 8(%C3--%(" 8(* 3$% ("1%23 %1:/"23!G5% E-2"5%,*23 ,352*!:2%( 8(%C3--%(". ]3 /"1E'G23 5"53-2* 238!%8(%,%':ZED 8"-2E 5" ,3(H5DD >(0X>E 8(%C3--%(" 83(3' E-2"5%,>%6 ("'*"2%(" / ,352*!:2%(" 8(%C3--%(" . ]*K3 8(3'-2",!350 E>"/"5*: 8% 8(",*!G5%6 E-2"5%,>3 8(%C3--%(" * ,352*!:2%(". ]38(",*!G5": E-2"5%,>" +%K32 8(*,3-2* > 8%,(3K'35*D > 8%,(3K'35*D 8(%C3--%(" * -*-23+5%6 8!"20. M/-4&)":4 ,8)<#//)84 LGA 775 P53X5*6 ,*' 8(%C3--%(" LGA 775.
P*' 8(%C3--%(" -% -2%(%50 >%52">25%6 8"53!* LGA 775.
1.
_"/Y3+ 8(%C3--%(" /">(02 8!"-2*>%,%6 >(0X>%6, >%2%(": /"Z*Z"32 >%52">20 ("/Y3+" %2 8%,(3K'35*6 * /"$(:/535*6. a-!* 8(%C3--%( 53 E-2"5%,!35 , ("/Y3+ , 53%1H%'*+% ,-3$'" /">(0,"2G 3$% 8!"-2*>%,%6 >(0X>%6 '!: /"Z*20 %2 80!* * 8%,(3K'35*6.
2.
A5*+*23 >(0X>E, 8%'5:, 33 - %'5%6 -2%(%50.
3.
c2>(%D2-: >%52">20 ("/Y3+".
4.
J%'5*+*23 (0?"$ * %2>(%623 ("/Y3+ '!: E-2"5%,>*
42
8(%C3--%(". 5.
e13'*,X*-G , 8(",*!G5%6 %(*352"C** 8(%C3--%(", 8%!%K*23 8(%C3--%( , ("/Y3+ . c1("2*23 ,5*+"5*3, ?2% ,03+>* 5" 8(%C3--%(3 '%!K50 -%%2,32-2,%,"2G ,0-2E8"+ 5" 8(%C3--%(5%+ ("/Y3+3.
6.
J(%,3(G23 8(",*!G5%-2G E-2"5%,>* 8(%C3--%(" , ("/Y3+ ,*/E"!G5%. a-!* 8(%C3--%( E-2"5%,!35 538(",*!G5%, 2% ,05G23 8(%C3--%( * 83(3E-2"5%,*23.
7.
c8E-2*23 +32"!!*?3->ED >(0X>E +3H"5*/+" >(38!35*:.
8.
S>>E("25% S>>E("25% %8E-2*23 (0?"$ 5" >(0X>E +3H"5*/+" >(38!35*: * /"=*>-*(E623 3$%. 9!: =*>-"C** (0?"$" , +3H"5*/+3 >(38!35*: 8(3'E-+%2(35 +"!35G>*6 >(D?%> .
9.
A%,+3-2*23 %2,3(-2*: -*-23+5%6 8!"20 - /"Z3!>"+* >(38!35*: ,352*!:2%(". J(*K+*23 ("'*"2%( ,352*!:2%(%+ > 8(%C3--%(E > 8(%C3--%(E * 8(%-!3'*23, ?2%10 ?320(3 /"Z3!>* ,%X!* , %2,3(-2*: -*-23+5%6 8!"20.
10. ]"K+*23 5" ?320(3 /"Z3!>* * /">(38*23 ,352*!:2%(. (5"8(",!35*3 R"23+ 8%,3(5*23 =*>-"2%(0 /"Z3!%> ( 8%,%(%2" E>"/"5% 5" ,352*!:2%(3) * /">(38*23 *H. 11. J3(3,3(5*23 -*-23+5ED 8!"2E * E13'*23-G , ?2% /"Z3!>* 5"'3K5% E'3(K*,"D2 ,352*!:2%(.
&'+4&'#: A%-2%:5*3 8(%C3--%(" -+%2(*23 , ("/'3!3 BIOS. a-!* 8(%C3--%( 53 E-2"5%,!35 , ,-3$'" /">(0,"623 ("/Y3+ 8!"-2*>%,%6 >(0X>%6 '!: 8(3'%2,("Z35*: 8%!%+%> * 8%8"'"5*: , 53$% $(:/* * 80!*. f%2% -*-23+5%6 8!"20 , ("/+3Z35503 , ;2%6 ?"-2*, 8(*,3'350 2%!G>% '!: '3+%5-2("C** E-2"5%,>* ,352*!:2%(". c1Z*6 ,*' -*-23+5%6 8!"20 /",*-*2 %2 +%'3!*, >E8!355%6 ,"+*. J% -83C*=*>"C*6 ?*8-32" Intel North Bridge 945GC, %5 8%''3(K*,"32 8(%C3--%(" +">-*+"!G5%6 ?"-2%2%6 FSB 800LNC 8(* E8EZ35** . c'5">%, 8!"2" +%K32 ("1%2"2G Du o CPUs) , (3K*+3 %,3(>!%>*5$", ?"-2%2E FSB ?"-2%2%6 FSB 1066LNC (Core 2 Duo 8(%C3--%(" +%K5% (3$E!*(%,"2G , -%%2,32-2,EDZ3+ ("/'3!3 BIOS: P%6'*23 , +35D BIOS Setup, [Frequency/ Voltage Control]à[Adjust CPU FSB Frequency]. R'3-G ,0 +%K323 */+35:2G ?"-2%2E FSB '% [266] '!: 8(%C3--%(%, Core 2 Duo. MN#%'-#/? " -)+, O-) /'/-#+4 +)P#- 84N)-4-? " 8#P'+# )"#8:3):'&Q4.
M/-4&)":4 +)%B3#1 ,4+>-' 1.
L%'E!* 8"+:2* *+3D2 2%!G>% %'5E 8(%(3/G , -3(3'*53. L%'E!G ,%6'32 , ("/Y3+ 2%!G>% 8(* 8(",*!G5%6 %(*352"C**.
2.
P-2",G23 +%'E!G , DIMM -!%2 , ,3(2*>"!G5%+ 5"8(",!35**. R"23+ 5"K+*23 5" 53$%, ?2%10 /%!%?3503 >%52">20 $!E1%>% 8%$(E/*!*-G , DIMM -!%2. a-!* +%'E!* 8"+:2* 8(",*!G5% ,%X!* , DIMM -!%20, /%!%203 >%52">20 1E'E2 8%?2* 53 ,*'50.
3.
J!"-2*>%,03 /"Z3!>* 5" %1%*H >%5C"H ("/Y3+" /">(%D2-: ",2%+"2*?3->* .
43
Notch
Volt
&'+4&'#: L%'E!* DDR2 53 ,/"*+%/"+35:3+0 - +%'E!:+* DDR, * -2"5'"(2 DDR2 53 *+332 %1("25%6 -%,+3-2*+%-2*. L%'E!G 8"+:2* DDR2 -!3'E32 E-2"5",!*,"2G 2%!G>% , ("/Y3+ DDR2. V2%10 -*-23+" /"$(EK"!"-G , ,5"?"!3 E-2"5%,*23 +%'E!G , ("/Y3+ DIMM1.
24-:)&-4:-&.1 24-:)&-4:-&.1 84GH#+ N3):4 ,'-4&'> ATX: AT ATX1 [2%2 ("/Y3+ 8%/,%!:32 8%'>!D?"2G 24->%52">2506 1!%> 8*2"5*: ATX > -*-23+5%6 > -*-23+5%6 8!"23. J3(3' 8%'>!D?35*3+ E13'*23-G , ?2% ,-3 X20(G>* ("/Y3+" %2 1!%>" 8*2"5*: (%,503, * %5 8(",*!G5% -%(*352*(%,"5. J!%25% ,-2",G23 3$% , ("/Y3+ 5" -*-23+5%6 8!"23. P0 2">K3 +%K323 *-8%!G/%,"2G 20 >%52">2506 Sgi Sgi 1!%> 8*2"5*: 1!%> 8*2"5*: ( %1("2*23-G > */%1("K35*D > */%1("K35*D -8(",").
R),)3&'-#3?&.1 84GH#+ ,'-4&'> ATX ,'-4&'> ATX 12 12: PWRCONN1
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON# GND
GN D
GND
+5V
GND
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
+ 1 2V
+1 2 V
GN D
GN D
[2%2 ("/Y3+ 8*2"5*: 12 P *-8%!G/E32-: '!: %13-83?35*: 8*2"5*: 8(%C3--%(". &'+4&'#: e13'*23-G, ?2% ,-3 ("/Y3+0 8*2"5*: ATX 8(",*!G5% 8%'>!D?350. ]"-2%:23!G5% (3>%+35'E32-: *-8%!G/%,"2G 1!%> 8*2"5*: 350 Pg ( * ,0X3) '!: %13-83?35*: -2"1*!G5%-2* -*-23+0 .
E4GH#+ %3> E4GH#+ %3> ,)%:3SO#&'> &4:),'-#3> L3),,' %'/:)": %'/:)": FDD1 [2%2 ("/Y3+ 8%''3(K*,"32 =!%88* '*->* 3+>%-2GD 360W, 720W, 1.2L, 1.44L *!* 2.88L.
E4GH#+ IDE: E4GH#+ IDE: IDE1 _"/Y3+ 8%''3(K*,"32 8%'>!D?35*3 K3-2>*H '*->%, IDE, %82*?3->*H '*->%, * '(E$*H IDE E-2(%6-2, . &'+4&'#: a-!* ,0 8%'>!D?"323 '," E-2(%6-2," > %'5%+E > %'5%+E >"13!D IDE, ,2%(%3 '%!K5% 102G E-2"5%,!35% , (3K*+ kSlavel 83(3>!D?"23!3+ 5" E-2(%6-2,3. c1("2*23-G > ("/'3!E > ("/'3!E, 8%-,:Z355%+E E-2"5%,>3
44
+5V
83(3>!D?"23!36 , , '%>E+352"C**, 8%-2",!:3+%6 8(%*/,%'*23!3+ %1%(E'%,"5*: .
E4GH#+. Serial E4GH#+. Serial ATA: SATA1/2/3/4 S erial ATA. ATA. _"/Y3+ SATA m ;2% ,0-%>%->%(%-25%6 8%(2 *523(=36-" Serial [2%2 ("/Y3+ +%K32 8%'-%3'*5:2G %'5% E-2(%6-2,% Serial ATA.
&'+4&'#: U/13$"623 (3/>*H */$*1%, >"13!: Serial ATA. P 8(%2*,5%+ -!E?"3 +%$E2 ,%/5*>5E2G 8%23(* '"550H 8(* 83(3'"?3.
E4GH#+. ,'-4&'> "#&-'3>-)8)": "#&-'3>-)8)": CPUF C PUFAN1, AN1, SYSFAN1 ' SYSFAN2
Control Sensor +12V GND GN D Sensor +12V GND
_"/Y3+0 8*2"5*: ,352*!:2%(%, 8%''3(K*,"D2 ,352*!:2%(0 8*2"5*3+ +12P. J(* 8%'>!D?35** 53%1H%'*+% 8%+5*2G, ?2% >("-506 8(%,%' 8%'>!D?"32-: > X*53 +12P, " ?3(506 - > /3+!3 > /3+!3 GND. a-!* -*-23+5": 8!"2" -%'3(K*2 +*>(%-H3+E "88"("25%$% +%5*2%(*5$" , 53%1H%'*+% *-8%!G/%,"2G -83C*"!G503 ,352*!:2%(0 - '"2?*>%+ ->%(%-2* '!: (3"!*/"C** =E5>C** E8(",!35*: ,352*!:2%(%+.
E4GH#+ USB E4GH#+ USB ,#8#% ,4': ,4': JUSB1/ JUSB2 @
_"/Y3+ -%%2,32-2,E32 23H5%!%$** Intel I/O Connectivity Connectivity Design D esign Guide, >%2%(": *'3"!G5" '!: 8%'>!D?35*: 2">*H ,0-%>%->%(%-250H E-2(%6-2, USB HDD, C*=(%,0H >"+3(, MP3 8!33(%, , >"> USB 8(*523(%,, +%'3+%, * 2.'.
+ GND
USB1-
N.C.(10) Key,no pin(9)
(2)VCC (1)VCC GND
USB0-
USB0+
E4GH#+ ".T)%4 S/PDIF: ".T)%4 S/PDIF: JSPD1 [2%2 ("/Y3+ *-8%!G/E32-: '!: 8%'>!D?35*: *523(=36-" S/PDIF (Sony & Philips Digital Interconnect Interconnect Format) '!: 83(3'"?* /,E>" , C*=(%,%+ =%(+"23.
VC C
SPDIF
GND
E4GH#+ CD-In: E4GH#+ CD-In: CD_IN1 [2%2 ("/Y3+ 8(3'5"/5"?35 '!: 8%'>!D?35*: '%8%!5*23!G5%$% "E'*% >"13!:.
L
GND GN D
R
MIC2_JD
@B%') 84GH#+ ,#8#% ,4': ,4': JAUD1
VCC5 (2)GND (1)MIC_L
_"/Y3+ 8%/,%!:32 8%'>!D?*2G /,E>%,03 ("/Y3+0 83(3'536 8"53!* . c5 @ -%%2,32-2,E32 -83C*=*>"C** Intel I/O Connectivity Connectivity Design D esign Guide.
NC Line_JD(10) Line-out_L(9)
MIC_R Front to Sense Line-out_R
45
E4GH#+. )8Q4&)" B,84"3#&'> ' '&%':4-)8)" ,#8#% ,4': ,4': JFP1, JFP2 [2* ("/Y3+0 %13-83?*,"D2 8%'>!D?35*3 %($"5%, E8(",!35*: * *5'*>"2%(%, 83(3'536 8"53!* . JFP1 @ -%%2,32-2,E32 -83C*=*>"C** Intel Front Panel I/O Connectivity Connectivity Design D esign Guide.
8 7
JFP2
Speaker
Power LE D 2 1
10 9
JFP1
-
+
+
-
Power Switch Power LE D
-
+
Reset Switch HD D LED LE D
2 1
R4-O': )-:8."4&'> :)8,B/4: :)8,B/4: JCI2
CINTRU GND GN D
1 2
W ;2%+E >%553>2%(E 8%'>!D?"32-: >"13!G '"2?*>" %2>(0,"5*: >%(8E-", E-2"5%,!35506 , >%(8E-3. J(* %2>(0,"5** >%(8E-" 3$% +3H"5*/+ ">2*,*(E32-: . A*-23+" /"8%+*5"32 ;2% -%102*3 * ,0'"32 8(3'E8(3K'35*3 5" ;>("53. J(3'E8(3K'35*3 +%K5% %2>!D?*2G , 5"-2(%6>"H BIOS.
;#8#+.O:4 )O'/-:' CMOS: )O'/-:' CMOS: JBAT1 ]" 8!"23 E-2"5%,!35" CMOS 8"+:2G - 8*2"5*3+ %2 1"2"(36>* , H("5:Z": '"5503 % >%5=*$E("C** -*-23+0 . 9"5503, H("5:Z*3-: , CMOS 8"+:2*, 2(31ED2-: >%+8GD23(E '!: /"$(E/>* %83("C*%55%6 -*-23+0 8(* ,>!D?35**. a-!* E ,"- ,%/5*>"32 53%1H%'*+%-2G -1(%-*2G >%5=*$E("C*D -*-23+0 (%?*-2*2G CMOS), ,%-8%!G/E623-G ;2%6 83(3+0?>%6.
1 2 3
1 2 3 K ee ee p D a ta ta
1 2 3 C l ea ea r D at at a
&'+4&'#: c?*-2>" CMOS 8(%*/,%'*2-: -%3'*535*3+ >%52">2%, 2-3 8(* %2>!D?355%6 -*-23+3. R"23+ -!3'E32 ,3(5E2G-: > -%3'*535*D > -%3'*535*D >%52">2%, 1-2. U/13$"623 %?*-2>* CMOS 8(* ("1%2"DZ36 -*-23+3: ;2% 8%,(3'*2 -*-23+5ED 8!"2E.
E4GH#+. PCI E4GH#+. PCI Express (Peripheral Component Interconnect) PCI Express -!%2 8%''3(K*,"32 '%8%!5*23!G503 >"(20 ("-X*(35*: *523(=36-" PCI Express. PCI Express x 16 -!%2 8%''3(K*,"32 ->%(%-2G 83(3'"?* '% 4.0 N /-
PCI Express x 1 -!%2 8%''3(K*,"32 ->%(%-2G 83(3'"?* '% 250 L/-.
46
E4GH#+ PCI E4GH#+ PCI (Peripheral Component Interconnect)
_"/Y3+ PCI 8%/,%!:32 E-2"5",!*,"2G >"(2E LAN, SCSI, USB * '(E$*3 '%8%!5*23!G503 >"(20 ("-X*(35*:, >%2%(03 -%%2,32-2,ED2 H"(">23(*-2*>"+ PCI. &'+4&'#: J3(3' E-2"5%,>%6 *!* */,!3?35*3+ >"(20 ("-X*(35*: E13'*23-G, ?2% >"13!G 8*2"5*: %2>!D?35 %2 ;!3>2(*?3->%6 -32*. J(%?2*23 '%>E+352"C*D 5" >"(2E ("-X*(35*: * ,08%!5*23 53%1H%'*+03 "88"("2503 *!* 8(%$("++503 E-2"5%,>* '!: '"55%6 8!"20 (83(3+0?>* , 83(3>!D?"23!* *!* >%5=*$E("C*: BIOS).
V48X8B-'G4<'> G4,8)/)" ,8#8."4&'> PCI ,8#8."4&'> PCI IRQ m -%>("Z35*3 %2 Interrupt ReQuest ( line) m !*5*: /"8(%-" 8(3(0,"5*:, "88"("25": !*5*:, 8% >%2%(%6 E-2(%6-2," +%$E2 8%-0!"2G -*$5"! 8(3(0,"5*: +*>(%8(%C3--%(E. c10?5%3 8%'>!D?35*3 >%52">2%, IRQ PCI > >%52">2"+ X*50 PCI E>"/"5% 5*K3: Order1
Order2
Order3
Order4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
47
Y4/-8)1:4 ,484+#-8)" BIOS . P>!D?*23 >%+8GD23(. P% ,(3+: -"+%23-2*(%,"5*: (POST) 5"K+*23 >!",*XE . Y4P+'-# DEL, O-)N. ")1-' " +#&S SETUP a-!* K3 ,0 53 E-83!* 5"K"2G 53%1H%'*+ED >!",*XE '!: ,H%'" , +35D 5"-2(%6>*, 83(3/"$(E/*23 -*-23+E * 8%8(%1E623 3Z3 ("/. 9!: 83(3/"$(E/>* ,%-8%!G/E623-G . >5%8>%6 RESET *!* %'5%,(3+355% 5"K+*23 >!",*X* , * .
[/&)"&)# +#&S
Standard CMOS Features U-8%!G/E32-: '!: %-5%,50H 5"-2(%3> , 2">*H >"> ,(3+:, '"2" * 2.'. Advanced BIOS Features U-8%!G/E32-: '!: 5"-2(%6>* '%8%!5*23!G50H ,%/+%K5%-236 -*-23+0 . Integrated Peripherals U-8%!G/E32-: '!: 5"-2(%6>* 8"("+32(%, ,-2(%3550H 83(*=3(*650H E-2(%6-2,. Power Management Setup U-8%!G/E32-: '!: 5"-2(%6>* 8"("+32(%, ;53($%-13(3K35*:. PNP/PCI Configurations Configurations U-8%!G/E32-: '!: 5"-2(%6>* -*-23+0 , 8%''3(K*,"DZ36 E-2(%6-2," PnP/PCI. H/W Monitor U-8%!G/E32-: '!: +%5*2%(*5$" -*-23+0 . Frequency/Voltage Control U-8%!G/E32-: '!: E-2"5%,>* ?"-2%20 * 5"8(:K35*:. Load Fail-Safe Defaults U-8%!G/E32-: 8(* /"$(E/>3 /5"?35*6 BIOS, E-2"5%,!35503 8(%*/,%'*23!3+ %1%(E'%,"5*: '!: -2"1*!G5%6 ("1%20 -*-23+0 .
48
Load Optimized Defaults U-8%!G/E32-: 8(* /"$(E/>3 /5"?35*6 BIOSn" '!: ("1%20 - %82*+"!G5%6 8(%*/,%'*23!G5%-2GD. BIOS Setting Password U-8%!G/E32-: '!: E-2"5%,>* 8"(%!:. Save & Exit Setup U-8%!G/E32-: '!: ,0H%'" */ +35D E-2"5%,>* - -%H("535*3+ ,53-3550H */+3535*6 (CMOS). Exit Without Saving U-8%!G/E32-: '!: ,0H%'" */ +35D E-2"5%,>* - 8%23(36 ,-3H ,53-3550H */+3535*6.
Frequency/Voltage Control (M,84"3#&'# O4/-)-4+' /&4,8>P#&'>+' /&4,8>P#&'>+'))
Current CPU Frequency [2%2 8E5>2 8%>"/0,"32 23>EZ33 /5"?35*3 2">2%,%6 ?"-2%20 8(%C3--%(" . Current DRAM Frequency Frequency [2%2 8E5>2 8%>"/0,"32 23>EZ33 /5"?35*3 2">2%,%6 ?"-2%20 8"+:2*. Adjust CPU FSB Frequency [2%2 8E5>2 8%/,%!:32 ,(E?5ED (3$E!*(%,"2G ?"-2%2E FSB 8(%C3--%(" . Adjust CPU Ratio [2%2 8E5>2 8%/,%!:32 (3$E!*(%,"2G >%;==*C*352 E+5%K35*: 8(%C3--%(" . Adjusted CPU Frequency Frequency [2%2 8E5>2 8%>"/0,"32 ?"-2%2E 8(%C3--%(" (FSB x Ratio). Advance DRAM Configuration > DRAM CAS# Latency
49
[2%2 8E5>2 >%52(%!*(E32 !"23525%-2G CAS, >%2%(": */+3(:32 ,(3+355ED /"'3(K>E DRAM 8(* ?235** '"550H. R5"?35*3 [2T] E!E?X*2 8(%*/,%'*23!G5%-2G -*-23+0 , " /5"?35*3 [2.5T] %13-83?*,"32 1%!33 -2"1*!G5ED ("1%2E -*-23+0. R"'"623 /5"?35*3 [By SPD], ?2%10 E-2"5%,*2G ,(3+35503 8"("+32(0 DRAM CAS# Laten L atency cy ( Serial Presence Presence Detect) EEPROM 5" ",2%+"2*?3->* , -%%2,32-2,** - '"550+* SPD (Serial +%'E!3 DRAM. FSB/Memory Ratio [2%2 8E5>2 8%/,%!:32 ,(E?5ED (3$E!*(%,"2G %25%X35*3 ?"-2%20 FSB/Ratio 8"+:2*. Adjusted DDR Memory Frequency Frequency [2%2 8E5>2 8%>"/0,"32 ?"-2%2E 8"+:2* DDR. Adjust PCI Frequency [2%2 8E5>2 8%/,%!:32 ,01("2G 23>EZ33 /5"?35*3 ?"-2%20 PCI (LNC) * 8(%*/,3-2* ("/$%5 -*-23+0 8E23+ E,3!*?35*: /5"?35*: ?"-2%20 PCI. Adjust PCIE Frequency [2%2 8E5>2 8%/,%!:32 ,01("2G 23>EZ33 /5"?35*3 ?"-2%20 PCI Express (LNC) * 8(%*/,3-2* ("/$%5 -*-23+0 8E23+ E,3!*?35*: /5"?35*: ?"-2%20 PCI Express. Auto Disable DIMM/PCI Frequency J(* E-2"5%,>3 /5"?35*: [Enabled] (("/(3X35%) -*-23+" ",2%+"2*?3->* %2>!D?*2 53*-8%!G/E3+03 ("/Y3+0 8"+:2* * ("/Y3+0 PCI, ?2% 8(*,3'32 > -5*K35*D > -5*K35*D E(%,5: ;!3>2(%+"$5*250H 8%+3H (EMI). Memory/PCI Express Voltage [2%2 8E5>2 8(3'5"/5"?35 '!: 5"-2(%6>* 5"8(:K35*: +%'E!36 8"+:2* /PCI Express, ?2% 8%/,%!:32 E,3!*?*,"2G *H ->%(%-2G . oD103 */+3535*: ;2%$% 8E5>2" +%$E2 8(*,3-2* > -5*K35*D -2"1*!G5%-2*, 8%;2%+E 53 (3>%+35'E32-: */+35:2G 5"8(:K35*3 8*2"5*: 8"+:2* 5" '!*23!G5%3 ,(3+:. Spread Spectrum g"> >"> g"> >"> 2">2%,06 $353("2%( -*-23+5%6 8!"20 *+8E!G-506, 2% 3$% ("1%2" ,0/0,"32 ( Electromagnetic netic Interference). fE5>C*: Spread ;!3>2(%+"$5*2503 8%+3H* - EMI (Electromag Spectrum -5*K"32 ;2* 8%+3H* , $353(*(E: -$!"K35503 *+8E!G-0. a-!* E ,"- 532 8(%1!3+ - 8%+3H"+* , %-2",G23 /5"?35*3 [Disabled] (/"8(3Z35%) '!: !E?X36 -2"1*!G5%-2* * 8(%*/,%'*23!G5%-2* . c'5">%, 3-!* E ,"- ,%/5*>"D2 ;!3>2(%+"$5*2503 8%+3H* , ("/(3X*23 *-8%!G/%,"5*3 ;2%6 =E5>C**, E-2"5%,*, [Enable] ( ("/(3X35%). ]3 /"1E'G23 /"8(32*2G *-8%!G/%,"5*3 =E5>C** Spread Spectrum, 3-!* ,0 p("/$%5:323q -*-23+5ED 8!"2E. [2% 53%1H%'*+%, 2"> >"> 2"> >"> '"K3 531%!GX%6 '(313/$ -*$5"!%, 2">2%,%$% $353("2%(" +%K32 8(*,3-2* > %2>"/E p("/%$5"55%$%q 8(%C3--%(".
&'+4&'#: a-!* E ,"- 532 8(%1!3+ - 8%+3H"+* , %-2",G23 /5"?35*3 [Disabled] (/"8(3Z35%) '!: !E?X36 -2"1*!G5%-2* * 8(%*/,%'*23!G5%-2*. c'5">%, 3-!* E ,"- ,%/5*>"D2 ;!3>2(%+"$5*2503 8%+3H*, ,013(*23 Spread Spectrum '!: *H E+35GX35*: . V3+ 1%!GX3 /5"?35*3 Spread Spectrum, 23+ 5*K3 1E'32 E(%,35G ;!3>2(%+"$5*250H 8%+3H, 5% -*-23+" -2"532 +3533 -2"1*!G5%6. 9!: ,01%(" 8%'H%':Z3$% /5"?35*: Spread Spectrum, -,3(G23-G -% /5"?35*:+* E(%,536 ;!3>2(%+"$5*250H 8%+3H, E-2"5%,!3550H /">%5%'"23!G-2,%+ . ]3 /"1E'G23 /"8(32*2G *-8%!G/%,"5*3 =E5>C** Spread Spectrum, 3-!* ,0 p("/$%5:323q -*-23+5ED 8!"2E. [2% 53%1H%'*+% , 2"> >"> '"K3 531%!GX%6 '(313/$ -*$5"!%, 2">2%,%$% $353("2%(" +%K32 8(*,3-2* > %2>"/E p("/%$5"55%$%q 8(%C3--%(".
50
!"#$% 945GCM5 V2 &'(MS-7267 &'(MS-7267 v4.x) Micro-ATX ()*945GCM5 V2 &'+, /0 1 234 23 4 ()* () * 56 Intel Core2 Duo/ Pentium D/ Pentium Intel 945GC & Intel ICH7 . /01 4 / Celeron D 789:945GCM5 789:945GCM5 V2 &';<%=>?:@AB4CDEFGHIJ*
Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Parall el Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
51
JUSB2
JUSB1
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ST: ST: Intel 945GC ./0 UT: UT: Intel ICH7 ./0
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^ Realtek RTL 8101E 564 564 10/100 Mb/s _`abc ^ Realtek RTL 8111B 564 10/100/1000 564 10/100/1000 Mb/s _`abc
Realtek ALC883 de./56 HD 5.1 fghijk* Realtek ALC888 de./56 HD 7.1 fghijk* le Vista ,mKn
IDE l l l
1 o IDE pq 56 Ultra DMA 66/100 Zr 56 56 PIO, stuv:wxZr
SATA l l l
4 o ICH7 ./0 SATA pq 56 4 F SATA 2y 56z{|}~•j`L=! 300 MB/s
Floppy l l
1 o floppy pq 56 1 o 360KB, 720KB, 1.2MB, 1.44MB | 2.88MB FDD
52
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1 o!"#$% SPP/EPP/ECP &' 1 o PS/2 "#pq 1 o PS/2 $%pq 1 o COM pq 1 o VGA pq 4 o USB 2.0 pq 1 oc&'q 3 o()4hi'q *+x ALC883 hi./, - 6 ohi 'q*+x ALC888 hi./, / 2 o USB 2.0 ./ 1 o CD-In 0q 1 o12D)hi ./ 1 o SPDIF-Out ./ 1 o3456789:./
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Mouse
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Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
Mic
SS-Out (optional)
CPU :Lz:MNO: PQFG"RS2 2()T4Ut:V; CDE(KFG"HIJK CPU:
LGA775 CPU & m"JK CPU \:Pno CPU pqrs/|tuv2w CPU xb*Hy"zqrs/|t :P!"wJKrsK2#1w CPU T$%D&r u:P{& |}~a#$|JK*•\:P!" s'(a '(a )*rs* P+~aBij,-nJK CPU | tu: .-n4JKQZ/" CPU |()401 |()401* * LGA 775 CPU LG775 CPU 4 .2D
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1.
zZ04R2{qDoYq:Lz Q3-n4JK!';R* LzZ04R
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55
ATX 24-
: ATX1 ATX1
=0q•G0Do ATX 24 .HIJx9* HIJx9* wX ATX 24-.HIJx HIJx 9ZG\:PKCnoHIJx9 HIJx90/JKIP-n:.2[\LM 2[\LM ()HI0qR
ATX 12V
: PWRCONN1
= 12V HI0qe- } CPU
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON#
+5V
GND
GN D
GND
+5V
GND
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
+ 1 2V
+1 2 V
GN D
GN D
: ();
: FDD1 0q56 360KB, 720KB, 1.2MB, 1.44MB - 2.88MB ]^* ]^*
IDE
: IDE1
2y:`^2y| 2y|Qa 0q56 IDE _%2y:`^ Qa IDE 2y* : 2y:" CD()Ut22x 2=_ Hy"w•DW _%t TG08o IDE 2y:"CD() Zr*Uc_%d~;<4_ ;<4 _%e %} cable select Zr-z92 2}( /bZr*Uc_ ID4 gh* * f:-Ut2=ID4gh
ATA
: SATA1/2/3/4
=`il ATA Dpq*ko0q •G0DFil ATA ATA jDpq*k ATA 2y* =0q+D=`i : PlQil ATA }~t[m@ 90 :CSQn@w•j)o •j)oR 4}~ pq* * ATA }~t[ R4}~pq
: CPUFAN1, SYSFAN1 & SYSFAN2 q56+12V &Brstu*m"Q0tG0!tu0/\ : tuHI0q56+12V PVWrs t}-t 1ust+ +12V: GND * VWrst }-t: CD0!+12V: ust+0W: CD0! GND* u./:"CD-e Hy"4()q&B_cvu./:"CDeDow23456` x^4 tuI •-e=A e=A?*
56
Control Sensor +12V GND GN D Sensor +12V GND GN D
USB
USB1+
: JUSB1/ JUSB2
GND
USB1-
=0q| Intel I/O G0$%[\: $%[\:• •aG0=` USB jDyH:zH USB HDD, }{Z3, MP3 |v9, O vG+9 [* }3, +vG+
N.C.(10) Key,no pin(9)
(2)VCC (1)VCC GND
USB0-
USB0+
S/PDIF-Out
: JSPD1
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CD-In
VC C
SPDIF
GND GN D
: CD_IN1
=0q;
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GND GN D
MIC2_JD
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VCC5
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NC Line_JD(10) Line-out_L(9)
(2)GND (1)MIC_L
MIC_R Front to Sense Line-out_R 8 7
: JFP1, JFP2 LED*JFP1 +| =0qe-HfG012D)9:| LED* D)G0$%Z Intel I/O 12D)G $%Z[\4*
JFP2
Speaker
Power LED 2 1
10 9
JFP1
-
+
+
-
Power Switch Power LE D
-
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Reset Switch HD D LE D
2 1
: JCI2 qtZ0. Hy343O9% ,=0/Q• =0qX34569:0qtZ :&BQ"=rs: NO. K$%CD 0:&B Vw!"T Twx#FNO. $%CD# #F =rs:Vw!" NO:"CD NO:" CDk5 BIOS 2 =X&'%=".
CMOS
: J BAT1 BAT1
RAM:QR6z4& ()T[qDo CMOS RAM: R6z4&B Bx2}~(K ()D)W2H*,+6*CMOS RAM +wk,J:3-3 4\.,/Z0|&B4*Hy"1'%6z w CMOS RAM 4&Bx2NO:• NO: •-eUt'%}~* R4&B
1 2 3
CINTRU GND GN D
1 2
1 2 3 K ee eep Da ta ta
1 2 3 C le lea r D at at a
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57
PCI (
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PCI Express ';56 PCI Express jDMNO* PCI Express x 16 ';56 4.0 GB/s •j`, •j`,.
•j`,* PCI Express x 1 56 250 MB/s •j`,
PCI (
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:|Qale le PCI $%4 PCI ';56cO:SCSI O:USB O:|Qa $%4 5)O* : :PEFno`8%HI* w6)-7%MNO\ 7%MNO\ :PEF HI* •\p9MNOx 2ef:-_c|] c422::HUt:9:: - BIOS x 2*
PCI '|R;Pnno4=>: Q2y4R 2y4R;N!?!@7894_ 7894_c'3* IRQ +R;Pn<'|R PCI 4 IRQ .2DAB+ G0!HB3x4 3x4 PCI st4 /2C Order1
Order2
Order3
Order4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
58
BIOS 3-3)H?:&BQQ9D Q9D POST*)H9E,)o* !"TkFaBNO \:e )o*m!"T k52=oM* oM* Press DEL to enter SETUP Setup,P:3? N93-e34T4 Hy=NOw" GkH\1I$q%:1" J(K k5 Setup,P restart $:cMJ:"4&B "4&B*" P•a •\eB, , , | $,cJ"4 ,cJ"4 &B*
Standard CMOS Features CMOS ,m4&B H\K:LM[ LM[* -e=/0 e=/0•[ •[,m4& Bx 2kl2=: H\K Advanced BIOS Features -e=/0 e=/0• •2 ==Nw>*
BIOS
Integrated Integrated Peripherals Peripherals -e=/0 e=/0•[ •[y yH2yklw42=* Power Management Setup -e=/0 e=/0• •a [HIO8klw2=* PNP/PCI Configurations Configurati ons PNP/PCI "4&B56 PnP/PCI \QqR* =P{w"4&B H/W Monitor :do&B#Frs* =Pwx"4 wx"4 CPU rs: rs:tu:do&B rs * Frequency/Voltage Control / uv|w2=* -e=/0 e=/0• •a [i,/HFuv|
59
Load Fail-Safe Defaults -e=/0 e=/0S5Xd} Xd}&B0|224 BIOS Y&1* &1* Load Optimized Defaults B&B>?1224XdY -e=/0 e=/0S5}TB&B XdY&1* &1* BIOS Setting Password BIOS 2 = BIOS 22U{* -e=/0 e=/02 Save & Exit Setup 6z CMOS V:VWk22* Exit Without Saving vX"qV:VWk2 2*
60
/
Current CPU Frequency wxm1 CPU i,* tY* Current DRAM Frequency Frequency zi,*tY* wxm1Lzi,
CPU
DRAM
Adjust CPU FSB Frequency CPU FSB w9:x^ 9:x^ CPU i,P32 =}[Disable]\: =PZ["7:+d 7:+ d CPU FSB i,* Adjust CPU Ratio CPU =PZ["+d CPU :,* Adjusted CPU Frequency CPU =Pwx+ wx+d?4 CPU i,(FSB x Ratio). tY* Advance DRAM Configuration > DRAM CAS# Latency V9DY?: =Puv CAS \]*H=% DRAM 0;V9DY [2.5T];?*2} >?*2}[By SPD]• )R=4&B 0,- SPD (Serial Presence Detect) EEPROM n=9:\]* FSB/Memory FSB/Memory Ratio FSB/ zi,4:z* •-mP7:+d 7:+dLz4 FSB/Lzi, Adjusted DDR Memory Frequency zi,*tY* =Pwx+ wx+d?4 DDR Lzi,
DDR
Adjust PCI Frequency PCI : ()+d =4i,a*i* =PZ["w_ PCI \`i,*04 MHZ, ()+d PCI \`!a=4i,
61
Adjust PCIE Frequency PCIE :()+d E xpress ss \`i ,*04 MHZ, =PZ["w_ PCIE Expre ()+d PCIE Express \`!a= 4i, 4i,a *i* Auto Disable DIMM/PCI Frequency DIMM/PCI 2=}[Enabled], &BQbb4 DIMM | PCI ';7% ';7%(:;)\`a-Hcdef! cdef!Lg (EMI)* (EMI)* Memory/ PCI Express Voltage / PCI Express =PZ["+d Lz/ PCI Express HF*+dHF•a;=` F•a;=`:[=P224hIV:B >R]*==.ij}kM4]4V#HF QZ/R=>R]*= #HF* Spread Spectrum .i, m()T4\`lmno9X|\, pq4t1*rs,Q rs,Qto to E M I *Hcde) .i
rsQxf} ~X2=A?•auvpqno9"to4 Hcde:"apqw4 rsQ R],Q=P2 =}[Disabled], CS•a T a}Ey4zt .Hy"zq{ zq{!HcdeR], B&B B&B4>?3 4>?3F|R=>. '+Hy"3HcdeR]|e, P9J=P, CS•a
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62
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Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Paralle l Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) T:RS-Out M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
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JUSB2
JUSB1
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Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
USB
Mic
SS-Out (optional)
YZ[ $\+]^789$_`a"3$bcdB;e)*+GEf;9,gh:;89$ <=ijk+, <=ij k+,EOl,m7\+n[op78q3l-4rs\+tu, LGA775 v\+]^789n-wxyz{|}-[~•GO!"#3${%&,'(-[)* +,-. %,4/0\+1-2LMIJ,3n[4]^789G)56${7-2\+$ {%&-h8${, LGA 775 LGA 775 CPU ;J .
LGA 775 CPU 5 9:
^_C`a_w Pi n1 Rb9 1. 2. 3. 4. 5. 6.
^_C`a_w Pi n1 Rb9
CPU PQ Gh3<=>?@A>? CPU 5 :, v\+ CPU
B[CDU-Ey59FG, m9:Hk/>?@DU, PQ59I|, LMJK, /JKJL1-2MLNe@, ~• CPU O~\+O*-/0P,P:],EQRST78 9kUVWPQ,XYZ6[6\] ,
66
7. 8. 9. 10. 11. 12.
cd CPU !e+\+f,'g\+f-[hij| CPU 4kl\+, @GNe@, mmnUJK-o1/JKNe4Ne@pEqQ, 6\%&r)*+GE\+T ,/%&0stUn-iu> dvwdm)*+E>TG, nU>dvENe%&,2xyzfdv{[\|dvGa bEO~O*}, ~y)*+-~•>dveO~PW,
:
[4 BIOS cd CPU •, g\+ CPU n-[!0<=>?@>? CPU 59-EyFG, Y")*+#b$w\+]^789B${%&b%0,bAA'}$%,E)*+( )h*+,, - Intel de 945GC 123~•-Y)*+.;g?QR/2 FSB 800MHz-0$A4 BIOS 1t CPU 21:32u FSB 1066MHz 1066MHz (Core 2 Duo CPU), 1%6 6]à[1t CPU FSB 21]78;e,'w Core 2 Duo [mW BIOS ;e45u[In/21% '( CPU-A/9:;w[266],
1. 2. 3.
_`a"3G;h3< h3QR-?N@PWPQG,. 'BCdG, _`aPQA _`aPQAHE<=dv'BCd
Notch
Volt
67
: DDR2 _`a"3-(l} DDR DE-F (l } DDR *UWj,GH [v DDR2 PQGPW\+ DDR2 _`a"3.
[)/_`aPW DIMM1 PQ E~>'IOJL*, ATX 24-Pin : ATX ATX 1 Y:;90: ; ATX 24-pin IK>L9,:; ATX 24-pin IKn[~•IK:;9PWEO*O~F986[E-2/IK:; 9MN@nW:;9G, $OA-PQ!0 ATX 20-pin IK,\+ ATX 20-pin IKn-[ ~•IKPB6[ pin 1 B pin 13 (RS#*b)PW,Y:;94 xy\+WX,. pin 11$ 12$ 23 B pin 24 T h UV;<- xy\+WX ATX 12V : PWRCONN1 12V EI K:;9> CPU ! 0, :
~•*h:;9T;u ATX IK>L9-E~>)*+YeZ*, ~•* IYe H[! H[!0 350 \(sEG)IK-h8'IY e], : FDD1 )*+=>345*:;9-AQR 360KB, 720KB, 1.2MB, 1.44MB B 2.88MB i ~•E 45*, IDE : IDE1 Y:;9A;^5$ 5$_ _5*B0` IDE +,, :
A3^5-b-^5 b-^5Ef;9{Jumper }\+A 'v33i( aG\+ cReu)Z/ de de"# 5c "#,[\|^5f -=>ghij /^5 l:;e^5, Serial ATA : SATA1/2/3/4 Y:;9w?p Serial ATA !J!-AV;3 L Serial ATA +, , :
a3z 90 -Eyv{/0nmnWX /0nmnWX, ATA ( a3z [Ckl Serial ATA
68
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON#
+5V
GND
GN D
GND
+5V
GND
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
+ 1 2V
+1 2 V
GN D
GN D
: CPUFAN1, SYSFAN1 &
Control Sensor +12V GND Sensor +12V GND
SYSFAN2 IK%&:;9TQR+12V ${%&,v/Ia;u:;9n[o_paOq-3eZ:;u+12Vrsta;@a-b:; I^a au%9123-b!0vp" u GND,')*+GHh'I^ L9;? 1 USB #9@A=9:B=C
USB1+ GND
USB1-
N.C.(10) Key,no pin(9)
(2)VCC (1)VCC GND
USB0-
USB0+
S/PDIF-Out : JSPD1 Y:;9A;u S/PDIF (Sony & Philip Digital Interconnect Format)! J -:v{98z@,
VC C
CD-In : CD_IN1 Y:;9A;(:EzY{W,
SPDIF
L
R
GND MIC2_JD
:: JAUD1 Y:;9-A:;uJ+z@-F~•xu Intel J +{ W/ {|;
VCC5
GND GN D
NC Line_JD(10) Line-out_L(9)
(2)GND (1)MIC_L
MIC_R Front to Sense Line-out_R 8 7
: JFP1, JFP2 :;9-:;uJ+LXB LED Rb{,JFP1 yz:; yz E~•xu Intel J+{W/ {|;
JFP2
Speaker
Power LE D 2 1
10 9
JFP1
-
+
+
-
Power Switch Power LE D
-
+
2 1
: JCI2 Y:;9;u*KLMLX( a,v*K|MLn-'MC I'_ _}&~•-44!G"bNOY *KLM*6-'I' Z,[mW BIOS ;e##]$%H &}YZ,
69
1 2
CINTRU GND
Reset Switch HD D LED LE D
CMOS : JBAT1 )*+Gh3 CMOS RAM-'0(;I(:>.'I MC* BCM E;e,CMOS RAM A)'Ivn*L*n-BC D'I,'Z$%'I;e-[!0Yf;9,
1 2 3
1 2 3
1 2 3
K ee ee p D a ta ta
C l ea ea r D at at a
:
'IX+n-[/ 2-3 98,AE$% CMOS /0-o1-u 1-2 98,AE~•,[Cv ~•Um7 Um7 CMOS /0$%-!.AA'/0)*+FG,. 'IL*E~• PCI Express PCI Express PQ QR PCI Express ! JEbcd, PCI Express x 16 PQ QR? no 4.0 GB Ev{p1 ,
PCI Express x 1 PQ QR? no 250 MB Ev{p1,
PCI
PCI
PQ QRbd$ SCSI d$USB dB01xu PCI ~•E (;d, :
l2s3%bcdn-[~•e/IKa45,6(-[78bcdE!0hi-~•v !0bcdn*P bcdn*P9URf;9$LXs BIOS ;ei4^ ei4^a;e,
PCI IRQ ] : ZQ (Interrupt request) E ; j<=- A)+,v>] : Y? h^789E h^789E ^aaA,PCI E IRQ 98-@Jw:;u PCI &'( 98-RU;*bX Order1
Order2
Order3
Order4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
70
BIOS L*1-'IA 'LB POST (L*BCDE )#F,GU(YZ|Hv!Gn-[I <-mW;e##, Press DEL to enter SETUP
'H YZ YZv$JLBA eKL-s$gMZmW;en-[/'IX+-2klMC-s I RESET <,OA3nIU B
Standard CMOS Features (
CMOS
)
!0Y45;eNYE'I3•-ORnP$QRi, Advanced BIOS Features (
BIOS
)
!0Y45;eSTEmUwA, Integrated Peripherals (
)
!0Y45;etuHjk+,, Power Management Setup (
)
!0Y45;eIKV8, PnP/PCI Configurations (PNP/ PCI ''IQR PnP/ PCI-'|HY4W,
)
H/W Monitor
~•, Y45"b789$%&Bta'IENO NO~• Frequency/Voltage Control
Y45ARe21BIn%6, 71
Load Fail-Safe Defaults Y45WW BIOS |f.;:, Load Optimized Defaults !0Y45WW BIOS EgX.;:-EY YeE'I@A, BIOS Setting Password !0Y45;e BIOS NZ,
BIOS
Save & Exit Setup /9U-.u CMOS-4 [L;e##, Exit Without Saving
\*h9U4[L;e##,
72
/
Current CPU Frequency CPU YW"b]BE CPU 21,^8, Current DRAM Frequency
CPU
YW:;ee\+_`a2 \+_`a21,^8, Adjust CPU FSB Frequency CPU FSB vG4W;wX+[Disable]-_A4YWQC1t CPU FSB 21, Adjust CPU Ratio CPU YWA1t CPU n`, Adjusted CPU Frequency CPU YW"b1t1 CPU 21E21(FSB x Ratio),^8, Advance DRAM Configuration > DRAM CAS# Latency YW;e DRAM v;au3Rb1-LB8DBE cdnP,;w[2T]-ep'I@A;w[2.5T]-=>UYeE'I@A,;w[By SPD]-BCm BIOS - DRAM "3GE 3G E SPD EEPROM-:; -: ;e DRAM n`B01WX;e, FSB/Memory Ratio
FSB/
A4YWQC1t_`aE FSB/_`an`EfO, Adjusted DDR Memory Frequency DDR YW"b1t1 DDR _`aE21,^8, Adjust PCI Frequency PCI YW;e PCI n`21(MHz)-4 Ag1tuU?E21-:32789,
73
Adjust PCIE Frequency PCIE YW;e PCI-Express n`21(MHz)-4 Ag1tuU?E21-:32789, Auto Disable DIMM/PCI Frequency DIMM/PCI ;wLM[Enabled]-' I'hi|EPQ3%(X+)n`EjkIlmno (EMI), Memory/PCI Express Voltage / PCI Express ) YWA1t_`a / PCI Express In,1t&In-Aep_`a,0UCYWAA'pq
H[CvR1t_`aEIn, 'IrYe-stu H[ Spread Spectrum
)*+En`mn9Lwugxn-`yEqx:zm-'{LIlmno(EMI),2|b$ wA-Agm1"`yEjk EMI E|},'(IlmnoE|}-[;wX+-E2}X IYe RPm7 3 E'IY e]B@A,'Zxu EMI ~%-[4~LM-EjkIlm,o_-RP m73 2-[•/YwAX+-Gw_!z^E!m-T"E{Ln`pE2#-ms!3 2]E789|ze, :
IYe e]B@A,0' '(Ilmno(EMI)E|}-[;wX+(Disabled)-E2}XE'IY Zxu EMI ~%-[4~ZjkIlmE%$,. 2|b$E9:%x-Ajk}VIlm-0W6'IA %rYe,ST2|b$&G 9: ['(G@~%, Z)732-[•X+2|b$wA,Gw_!z^E!m-T"E{Ln`pE2 s!32]E789|ze, #-ms!32]
74
945GCM5 V2 !"#(MS-7267 v4.x)Micro-ATX $%"&"'()*+,*-./01234
56789*:;< 945GCM5 V2 !"#= Intel 945GC & Intel ICH7 >?@A?B2CD*E
*:;< Intel Core2 Duo/ Pemtium D/ Pemtium 4 / Celeron D @FA?G"2HIJ945GCM5 V2 !"#=KL MNO"$PQRS@FNT?UVW XQYB?@ Z!["UP •
•
•
(\]J:;<
^_=`abc&"'d340efc-ghijklmnopqr534:;< Top : mouse Bottom: keyboard
CPUFAN1
1 M M I D
Top : Paralle l Port
2 M M I D
Bottom: COM Port VGA Port
USB ports
PWRCONN1
1 E D I
1 X T A
Intel 945GC
T: LAN jack B: USB ports JCI2 T:Line-In M: Line-Out B: Mic T:RS-Out (optional) T:RS-Out M:CS -Out (optional) B:SS-Out (optional)
I/O Chip
SYSFAN1
PCI_E1 SYSFAN2
LAN Chip
4 A T A S
PCI_E2 BATT +
PCI2 AUDI O Chip
3 A T A S
1 A T A S
2 A T A S 1 P F J
JBAT1
PCI1
2 P F J
JAUD1 CD_IN1 JSPD1
FDD1
75
JUSB2
JUSB1
Intel Core2 Duo/ Pentium D/ Pentium 4/ C eleron eleron D LGA 775 @FA?GGs"B (tuc CPU HIv=wxcy"z{"|}~8• k.n*< http://global.msi.com http://global.msi.com.tw/index .tw/index.php?func=cpufor .php?func=cpuform) m) l
FSB l
800 / 533 MHz
l
!"Q"!?|: Intel 945GC >?@A?B G#Q"!?| : Intel ICH7 >?@A?B
l
DDR2 400/ 533/ 667 SDRAM (t$ 2GB :d%&'() l 2 DDR2 DIMMs (240 )P/ 1.8V) (tuc*+!+|["WHIv=wxcy"z{"|}~8• ,k.n*< http://global.msi.com.tw/index.php?func=testreport) l
LAN Mb/s N-"QBL"G. ?B Realtek RTL 8101E l 10/100/1000 Mb/s N-"QBL"G.?B Realtek RTL 8111B l 10/100
Realtek ALC883 2/rJ->?@5.1 >0 P.W1"X2134(Gs"B l Realtek ALC888 2/rJ->?@ 7.1 >0 P.W1"X2134(Gs"B l Vista Premium !" l
IDE IDE s"B l Ultra DMA 66/100 +"'(Gs"B l PIO, 5Q$Q6, 1{7"UP+"'(Gs"B l 1
SATA ICH7 >?@A?Bc 4SATA s"B l SATA X5LQ( 4 8Gs"B l 300 MB/s :dc*+ !6X" 69:(Gs"B l
l l
1 NF? )"s"B 360KB, 720KB, 1.2MB, 1.44MB 6 2.88MB 5LBc FDD1 ;<='(
76
l
-
1 M>7 Ws"# SPP/EPP/ECP +"'(Gs"B 1 PS/2 $ #Qs"B 1 PS/2 ?"&"'s"B 1 COM s"B 1 VGA s"B 4 USB 2.0 s"B 1 LAN |0?Y 3 1"X21|0?Y@ ALC883 1 "X21>?@(AB;p$%"&"'2HIC:-= 6 1 "X21|0?Y@ ALC888 1"X21>?@(AB ;p$%"&"'2HI C /
l
-
2 USB 2.0 )PD?E" 1 CD-In F.Y6" 1 NFPBM.W1"X21) PD?E" 1 SPDIF-Out )PD ?E" 1 !"#$%&'!(&)*+!
1 PCI Express x16 QF?B l 1 PCI Express x1 QF?B l 2 PCI QF?B(3.3V/ 5V PCI 5QLP 6"NTLQ(Gs"B ) l
l
Micro-ATX (24.5cm (24.5c m X 22.5 cm)
l
6G
77
5?YM.W2=HwcF.Y6"5IJnoE*:;$ Parallel Par allel Port
LAN
Mouse
Line-In RS-Out (optional)
Line-Out CS-Out (optional)
Key boa rd
Ser ial Por t
VGA Por Portt
USB Ports
Mic
SS-Out (optional)
KcLd=K"'#TMcLPQB"W NO28*EPQJ:;
LGA775CPU& CPU (T4lhpqr2=01"5" m"B(fn-g2m"BPY6Y" >"( CPU 2op; pk72qr2T4lhEk.n*<:-0m"BPY( CPU 2sp;pqr2= bt2IuE !FPv!Q(wxJEk.n*< wxcNO2yXE zJk CPU 6 CPU Y">"(spJEk.n*< spZ{(Yp6t|c qr CPU }$%"&"'j ~c\](•/:;< LGA 775 CPU LGA 775 CPU c pin-pad
LGA 775 CPU cz !
1.
CPU c> P'GL'"5" (#$%&"5")('J:;<
2.
CPU Z(?B75" }~Z(?B%&"5"()X k4'J: ;$
3.
CPU Z(?Bc )P5*3 J-+,2j4:;$
4.
75"(-`@7"BcN?Y}~'J:;$
78
5.
75"6-`@7"B(.KJ:;<
6.
CPU c alignment key(/B0gc12)6 CPU Z(?Bc33X 445(r67E0 sp;p[/(0`J:;<
7.
CPU 5zJkZ(?B28:XE*p K6(q9JEk.n*$
8.
-`@7"B( )X k4w: J:;<
9.
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10. CPU Y">"c;2:;$ 12. $%"&"'(?@JE0?!23-@?[)PcA5`/0 zJkF?Yd/-K6(q9J:;<
:
BIOS 2 CPU c+,(>T?YJEk.n*< CPU (B6j*qr0\](fg;p-g2 CPU Z(?B)P(@>Q>?Y"5"d CEk.n *<
KcDc_= CPU / Y">"(LPQB"W;pEcPQd;< Fc-g08GHc$%"&"' 2k4T4 lhZ5Ijpqr534:;< !"Q"!?| 945GC >?@A?BQ{?Y2 k40 JKL=XNOWBc M`N5 FSB 800MHz d3p CPU (Gs"BJ:;
1.
*+!+|["W=b\2]8.hc^o_/5`h~oE Y40 Kc-g0abX -[ /d=cJ>gj* k72jXE*:;$
2.
DIMM *+!+|["W( DIMM QF?B2de2c>20=J>2:;$
3.
DIMM QF?Bc f23pY>Q>?YY!?@5gSh2-`no:; $
79
Notch
Volt
: DDR2 *+!+|["W= DDR +|["W6i*2jkcilm534:7[
ATX 24
: ATX1 ATX1
ATX e p 24 )PF.Y 6"(<=J:;< <=ca2=F.Y6"c [ /2VJJEq:dJX}4 cJ>[dk.n*
ATX 12V
: PWRCONN1
Kc 12V epF.Y6"=0CPU vcep]wdBIno:; $
+3.3V
+3.3V
-12V
+3.3V
GND
GN D
PS-ON#
+5V
GND
GN D
GND
+5V
GND
GN D
R es
PWR O K
+5V
5VSB
+5V
+12V
+5V
+12V
GND
+3.3V
+ 1 2V
+1 2 V
GN D
GN D
:
$%"&"'2]x(yzj*k720{EcF.Y 6"5|^2 ATX ep2<=;p K6( q9JEk.n*<
ep}~=t•dt 350W H+cfjep(BIJEk.n*<
FDD
: FDD1
JKL= 360K, 720K, 1.2M, 1.44M RS 2.88M cNF?)"X2Q Y'>L"2HIJE*:;<
IDE
: IDE1
JKL2= IDE K"'X2QY'>L"0!X2QY'> L"6"c IDE X 5LQ (Gs"BJ:;$ :
K"'X2QY(#;BI;pqr=0|0PM(BIJE# ;$cK"'X2Q Y(Q7""2``;pbt534:;<|0 PMc``NOj~28/:JE =K"'X2QYK%&'}~IJno:J-$([M W(8•k.n*<
80
ATA
: SATA1/2/3/4
JKL=)*!MW ATA ATA LP6"NTLQs"B( %&JE*:;<]8cF ATA X5LQ(<=;pK65d/:;$ .Y6"28/0]8c!M W ATA : ATA (""W=+H 90 , H+2-~j*k7Y.**-J:;
: CPUFAN1, SYSFAN1 &
Control Sensor +12V GND GN D Sensor +12V GND
SYSFAN2 N-PepF.Y6"= +12V c23N-P(Gs"BJ:;<<=;p6/2V JJjhoXj~j*c=0 4*5=@>Qjcd+12V 206*5=M "Qj cd GND 2<=;p K6d;<:-0JKLcQ nzK"' #TM+(67 ((BI;pqr=N-Pc89RAPG"7 (58*-N-P(BI;pb t534:;<
USB
USB1+
: JUSB1/
JUSB2
JKL= Intel I/O Connect C onnectivity ivity Design Guide j`2 9:JE*:;0 MP3 @7 ";0@!P60+Xz0Fc<}c)* USB LP6NT "QP=7>v<=;p K65d/:;<
S/PDIF
N.C.(10) Key,no pin(9)
(2)VCC (1)VCC GND
USB0-
USB0+
: JSPD1
KcF.Y 6"=X| 6W1"X21"9:Ic SPDIF(Sony& Philips Digital Interconnect Format)LP 6NT"Q2<=J:;<
CD-In
GND
USB1-
VC C
SPDIF
GND
: CD_IN1
KcF.Y 6"='?c1"X21H4c-g2%&n oE*:;<
L
GND GN D
R
MIC2_JD VCC5
: JAUD1 NFPBM. W1"X21) PD?E"(BI;p 60NFP6M.W}~c1"X2134}'( onnectivity 2j4:;<)PA@ = Intel I/O C onnectivity Design Guide 29:JE*:;<
81
(2)GND (1)MIC_L
NC Line_JD(10) Line-out_L(9)
MIC_R Front to Sense Line-out_R
: JFP1, JFP2 JKL2=0NFPB M. W QL?> } LED (HA 6J -e$h<=I20B8cNFPB M. W F.Y 6"5 IJnoE*:;
8 7
JFP2
Speaker 2 1
•
•
Power LE D
•
10 9
JFP1
-
+
+
-
Power Switch Power LE D
-
+
Reset Switch HD D LED LE D
2 1
: JCI2 KcF.Y 6"2=( "Q`CQL?>c(""W(<=J: ;<("Q(`hp6("Q`CAPG"=U?B+,2j4 :;<Qnz=DE(xFJ0Gi* ?A|"(U!2vH J :;
CMOS
CINTRU GND GN D
1 2
: JBAT1
,-./0 CMOS RAM 123456789:;<=>? <@1AB45CDEFG"HIJKL BIOS MNOPQ RS6TUVWDM CMOS RAM /XY?5Z[\]"J K/^_69 OS P`a/bc4dCDE1ef/g8U VWG"HINOPhijSZTkl9hij CMOS mn &F[!nPhijSUVW
1 2 3
1 2 3 K ee ee p D a ta ta
1 2 3 C l ea ea r D at at a
: CMOS (Y!M;p2=0Q nz51Nca2)P 2-3 (U"B@LMCJ:;
PCI Express PCI Express QF?B= PCI Express LP6"NTLQV4""'(Gs"BJ:;< PCI Express x 16 = 4.0 GB/s :dc9:*,(Gs"BJ:;<
PCI Express x 1 = 250 MB/s :dc9:*,(Gs"BJ:;<
82
PCI
PCI QF?B=tt WImc)*V4QF?Bd0HI;pXYjV4" "'5a ZnoE*: ;< : V4""'cT4 'J2aJE=0bct[ 2e pF"'( FPAPB}~ U*Ek.n*0BIOS j ~btjK"'#T M``0ZNB#TM``(^XEk.n*<
PCI IRQ@interrupt request line c_`a0IbR bQ 6ac;pC=0X5LQ5d4>2DE($L YF@FA?G2:D;p-gcK"'#TM85d;< PCI c IRQ )P=rs PCI 5Q INT A# }~ INT D#)P2wvck72<=noE*:;$ Order1
Order2
Order3
Order4
PCI Slot1
INT B#
INT C#
INT D#
INT A#
PCI Slot2
INT C#
INT D#
INT A#
INT B#
83
BIOS Test)ef FP)[" 6"(.S;p6Q nz= POST (Power On Self Test) ef2H4:;
A"|5U!2vHnoE*pa2?"(=;6``U!2HpK65d/:;< Press DEL to enter SETUP (=;g2Kc* ?A"|5IzEJ:X -qr0ep(*X -[^ XE}~hSiH; p}0 (=;}JE0Q nz(h.SJEk.n*<66(jE 2=JEth .Sd/:;$
Standard CMOS Features QnzcCJhj``J:;7 Wj~cR I/O s"Bc``(J:;< Power Management Setup epop2q;p``(^*:;< PNP/PCI Configurations Configurations @>vMP'@7L} PCI j~0 V4QF?B2 q;p``(^ 7G"* (["2rSJ:;< H/W Monitor Qnzcs,0N-P8 9*,j~5vHno:;< Frequency/Voltage Control PQR/ et FPBF"Wc`` 5vHno:;<
84
Load Fail-Safe Defaults BIOS u PE"5jk J-[v``Nd0ST c_`m(oAJE*:; Load Optimized Defaults
_`J-Qnzm((yzpwq3xXNOWBN( BIOS 2F"'J:;< BIOS Setting Password
MQy"'(``J:;< Save & Exit Setup lmJ- CMOS ``N(%zJEA?BM?@({|J:;< Exit Without Saving lmJ- CMOS ``N(%z7c2A?BM?@({| J:;$
Frequency/Voltage Control
Current CPU Frequency
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85
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