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Un buon manuale d’uso
Le regole impongono al rivenditore l'obbligo di fornire all'acquirente, insieme alle merci, il manuale d’uso Intel 945PL. La mancanza del manuale d’uso o le informazioni errate fornite al consumatore sono la base di una denuncia in caso di inosservanza del dispositivo con il contratto. Secondo la legge, l’inclusione del manuale d’uso in una forma diversa da quella cartacea è permessa, che viene spesso utilizzato recentemente, includendo una forma grafica o elettronica Intel 945PL o video didattici per gli utenti. La condizione è il suo carattere leggibile e comprensibile.
Che cosa è il manuale d’uso?
La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso Intel 945PL descrive le fasi del procedimento. Lo scopo del manuale d’uso è istruire, facilitare lo avviamento, l'uso di attrezzature o l’esecuzione di determinate azioni. Il manuale è una raccolta di informazioni sull'oggetto/servizio, un suggerimento.
Purtroppo, pochi utenti prendono il tempo di leggere il manuale d’uso, e un buono manuale non solo permette di conoscere una serie di funzionalità aggiuntive del dispositivo acquistato, ma anche evitare la maggioranza dei guasti.
Quindi cosa dovrebbe contenere il manuale perfetto?
Innanzitutto, il manuale d’uso Intel 945PL dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo Intel 945PL
- nome del fabbricante e anno di fabbricazione Intel 945PL
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature Intel 945PL
- segnaletica di sicurezza e certificati che confermano la conformità con le norme pertinenti
Perché non leggiamo i manuali d’uso?
Generalmente questo è dovuto alla mancanza di tempo e certezza per quanto riguarda la funzionalità specifica delle attrezzature acquistate. Purtroppo, la connessione e l’avvio Intel 945PL non sono sufficienti. Questo manuale contiene una serie di linee guida per funzionalità specifiche, la sicurezza, metodi di manutenzione (anche i mezzi che dovrebbero essere usati), eventuali difetti Intel 945PL e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio Intel in assenza dell'efficacia delle soluzioni proposte. Attualmente, i manuali d’uso sotto forma di animazioni interessanti e video didattici che sono migliori che la brochure suscitano un interesse considerevole. Questo tipo di manuale permette all'utente di visualizzare tutto il video didattico senza saltare le specifiche e complicate descrizioni tecniche Intel 945PL, come nel caso della versione cartacea.
Perché leggere il manuale d’uso?
Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo Intel 945PL, l'uso di vari accessori ed una serie di informazioni per sfruttare totalmente tutte le caratteristiche e servizi.
Dopo l'acquisto di successo di attrezzature/dispositivo, prendere un momento per familiarizzare con tutte le parti del manuale d'uso Intel 945PL. Attualmente, sono preparati con cura e tradotti per essere comprensibili non solo per gli utenti, ma per svolgere la loro funzione di base di informazioni e di aiuto.
Sommario del manuale d’uso
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Document Number: 307504-004 Intel ® 945G/945GZ/945GC/ 945P/945PL Express Chipset Family Thermal and Mechanical De sign Guidelines (TMDG) - For the Intel ® 82945G/82945GZ/82945GC Graphics Memory Controller Hub (GMCH) and Intel ® 82945P/82945PL Memory Controller Hub (MCH) February 2008[...]
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2 Thermal and Mechanical Design Guidelines INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNE CTION WITH INTEL® PRODUCTS . NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT. EXCEPT AS PROVIDED IN INTEL'S TERMS AND CONDITIONS OF SALE FOR SUCH PRODUCTS, INTEL ASSUMES NO LIAB[...]
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Thermal and Mechanical Design Guidelines 3 Contents 1 Introduc tion ..................................................................................................... 7 1.1 Terminology .......................................................................................... 8 1.2 Reference Do cuments ............................................[...]
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4 Thermal and Mechanical Design Guidelines Figures Figure 1. (G)MCH Non-Grid Array ...................................................................... 12 Figure 2. 0° Angle Attach Method ology (top view, not to scale).............................. 16 Figure 3. 0° Angle Attach Heatsink Modifi cations (generic heatsink side and bottom view shown[...]
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Thermal and Mechanical Design Guidelines 5 Revision History Revision Number Description Date -001 • Initial Rel ease May 2005 -002 • Added Intel ® 82945PL specific ations October 2005 -003 • Added Intel ® 82945GZ specificati ons December 2005 -004 • Added Intel ® 82945GC specific ations F ebruary 2008 §[...]
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6 Thermal and Mechanical Design Guidelines[...]
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Introduction Thermal and Mechanical Design Guidelines 7 1 Introduction As the complexity of computer systems increases, so do power dissi pati on requirements. The additional power of next generati on systems must be properly dissipated. Heat can be dissi pated using improved system cooli ng, selective use of ducting, and/or active/passive heatsink[...]
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Introduction 8 Thermal and Mechanical Design Guidelines 1.1 Terminology Term Description BGA Ball Grid Array. A package type defined by a resin-fiber substrate where a die is mounted and bonded. The primary electrical interface is an array of solder balls attached to the substrate opposite the die and molding compound. FC-BGA Flip Chip Ball Grid Ar[...]
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Introduction Thermal and Mechanical Design Guidelines 9 1.2 Reference Documents Document Comments Intel ® 945G/945GZ/945P/945PL Express Chi pset Family Datasheet http://developer.intel.com/des ign/chipset s/datashts/307502. htm Intel ® I/O Controller Hub 7 (ICH7) Datasheet http://developer.intel.com//de sign/chipsets/datashts/30701 3.htm Intel ®[...]
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Introduction 10 Thermal and Mechanical Design Guidelines[...]
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Product Specifications Thermal and Mechanical Design Guidelines 11 2 Product Specifications This ch apter p rovide s the pa ckage d escrip tion and loading specific ations. T he chap ter also provid es compon ent therma l specificat ions and th ermal desig n power de scriptions for the (G)MCH. 2.1 Package Description The (G) MCH is availab le in a [...]
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Product Specifications 12 Thermal and Mechanical Design Guidelines Figure 1. (G)MCH Non-Grid Array 2.2 Package Loading Specifications Table 1 provides static lo ad spec ifications fo r the chip set pa ckage. T his mechan ical maximum load limit sh ould not be e xceeded during heat sink assembly, s hipping conditions, or standard use conditions. Als[...]
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Product Specifications Thermal and Mechanical Design Guidelines 13 2.3 Thermal Specifications To ensur e proper operation a nd reliabilit y of the (G) MCH, the temp erature mu st be at or below th e maximum value sp ecified in Table 2. System and component level thermal enhancements are required to dissipate the heat generated and mai ntain the (G)[...]
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Product Specifications 14 Thermal and Mechanical Design Guidelines 2.4.1 Methodology 2.4.1.1 Pre-Silicon To dete rmine TDP for pre-silic on produ cts in deve lopment, it is necessa ry to make estimates b ased on a nalytical models. T hese mode ls rely on exte nsive knowledg e of the past chipset power dissipation behavi or al ong with knowledge of [...]
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Thermal Metrology Thermal and Mechanical Design Guidelines 15 3 Thermal Metrology The system designer must measure temperatures to accurately determine the thermal performance of the system. Intel has established gui del ines for proper techniques of measuring (G)MCH component case temperatures. 3.1 Case Temperature Measurements To ensu re function[...]
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Thermal Metrology 16 Thermal and Mechanical Design Guidelines Figure 2. 0° Angle Attach Methodology (top view, not to scale) Figure 3. 0° Angle Attach Heatsink Modifi cations (generic heatsink side and bottom view shown, not to scale) 3.2 Airflow Characterization Figure 4 describes the recommended location for ai r temperature measurements measur[...]
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Thermal Metrology Thermal and Mechanical Design Guidelines 17 Figure 4. Airflow Temperature Measurement Locations Airflow velocity should be me asured u sing industry standard air velocity sensors. Typical airflow sensor technol ogy may include hot wire anemometers. Figure 4 provide s guidance for airflow velo city measure ment locat ions. These lo[...]
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Thermal Metrology 18 Thermal and Mechanical Design Guidelines[...]
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Reference Thermal Solution Thermal and Mechanical Design Guidelines 19 4 Reference Thermal Solution The reference component thermal solution fo r the (G)MCH for ATX platforms uses two ramp retainers, a wire preload cli p, and four custom MB anchors. The Intel Balanced Technology Extended (BTX) reference design uses a Z-clip attach for the (G)MCH he[...]
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Reference Thermal Solution 20 Thermal and Mechanical Design Guidelines Figure 5. Processor Heatsink Orientation to Provide Airflow to (G)MCH Heatsink on an ATX Platform Proc _HS_Orient_ATX Airflow Direction Airflow Di rection Airflow Direction Airflo w Direc tion Airflow Di recti o n Airfl ow D irecti on Airflow Di recti o n Airfl ow Di rectio n (G[...]
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Reference Thermal Solution Thermal and Mechanical Design Guidelines 21 Figure 6. Processor Heatsink Orientation to Provide Airflow to (G)MCH Heatsink on a Balanced Technology Extended (BTX) Platform Top Vi ew Balanced Tec hnol ogy Extende d (BTX ) Th ermal Mo d ule As s e mbly Ov er Process or (G)MCH Airf low D irection Proc _HS_O ri ent 4.2 Mechan[...]
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Reference Thermal Solution 22 Thermal and Mechanical Design Guidelines Figure 7. ATX GMCH Heatsink Installed on Board[...]
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Reference Thermal Solution Thermal and Mechanical Design Guidelines 23 Figure 8. Balanced Technology Extended (BTX) GMCH Heatsink Installed on Board[...]
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Reference Thermal Solution 24 Thermal and Mechanical Design Guidelines 4.4 Environmental Reliability Requirements The envir onmental r eliability re quiremen ts for the referenc e thermal s olution are shown in Table 4. These s hould be conside red as genera l guidelin es. Validat ion test plans should be defined by the user based on antici pated u[...]
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Enabled Suppliers Thermal and Mechanical Design Guidelines 25 Appendix A Enabled Suppliers Current suppliers for the Intel ® 945G/945GZ/945GC/945P/945PL Express chipset (G)MCH re ference thermal solu tion are list ed in Table 5 and Table 6. Table 5. (G)MCH ATX Intel Reference Heatsink Enabled Suppliers Supplier Intel Part Number Vendor Part Number[...]
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Enabled Suppliers 26 Thermal and Mechanical Design Guidelines Table 6. (G)MCH Balanced Technology Extended (BTX) Intel Reference Heatsink Enabled Suppliers Supplier Intel Part Number Vendor Part Number Contact Information CCI (Chaun Choung Technology Corp.) C57359-001 00C863401A Monica Chih - +886 ( -2) - 29952666 monica_chih@ccic.com.tw Harry Lin [...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 27 Appendix B Mechanical Drawings The following table list s the mec hanical dra wings availab le in this do cument. Drawing Name Page Number (G)MCH Package Drawing 28 (G)MCH Component Keep-Out Restrictions for ATX Platforms 29 (G)MCH Component Keep-Out Restrictions for Balanced Technolog[...]
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Mechanical Drawings s 28 Thermal and Mechanical Design Guidelines Figure 9. (G)MCH Package Drawing[...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 29 Figure 10. (G)MCH Component Keep-Out Restrictions for ATX Platf orms 8X PLATED THR U H O LE 8X 1.42[.056] T RA CE K E E P OUT 0.97 .038 [] 4 .1575 [] 74 2.9134 [] 47 1.85 [] 60.92 2.398 [] 4X 8 . 7 6 .345 [] 4X 8.76 .345 [] 4X 1.84 .072 [] 4X 5.08 .200 [] 81 3.189 [] 60.6 2.386 [] 26.7[...]
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Mechanical Drawings s 30 Thermal and Mechanical Design Guidelines Figure 11. (G)MCH Component Keep-Out Restrictions for Balanced Technology Extended (BTX) Platforms 4X 8. 76 .3 4 5 [] 4X 4. 19 .1 6 5 [] 4X 1. 85 . 073 [] 4X 5. 08 .2 0 0 [] 4X 2. 1 . 08 3 [] 8X P L A T E D T HRU HO L E 0. 97 . 038 [] 48. 26 1. 900 [] 55. 8 8 2. 2 0 0 [] 2X 3. 3 .1 3[...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 31 Figure 12. (G)MCH Reference Heatsink for ATX Platf orms – Sheet 1 2 X 58. 6 2.307 [] 2X 80 3. 150 [] 47 1.850 [] 36 1.417 [] 8X 2 . 7 0. 15 .1 0 6 .005 [] 7X E Q U A L SP A CING T YP 6 3. 7 5 0.15 .148 .00 5 [] T YP 3 5 .5 1.398 [] 2X 6 48 0.15 1.890 . 005 [] 2X 6 59. 28 0. 15 2.334 [...]
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Mechanical Drawings s 32 Thermal and Mechanical Design Guidelines Figure 13. (G)MCH Reference Heatsink for ATX Platf orms – Sheet 2 2X 6 0.6 .0 2 4 [] TYP 6 2.75 0. 1 .108 . 003 [] 6 1. 5 0. 15 . 059 .00 5 [] 6 6. 72 0.15 . 265 .005 [] R0 . 5 .02 0 [] 2X 15 .59 1 [] 16 .63 0 [] 25. 5 1. 004 [] 66 2. 5984 [] TYP 4 .1575 [] TY P 135 TYP R 1 .03 9 [[...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 33 Figure 14. (G)MCH Reference Heatsink for ATX Platf orms – A nchor 6 5. 21 0. 12 .20 5 . 004 [] 4X 6 7. 83 0.12 .30 8 . 004 [] 2X 10. 13 0. 12 .3 9 9 .004 [] 2X 6 0.77 0.1 .03 0 . 003 [] 7. 62 0. 15 .3 00 .005 [] 2.5 0.15 .098 .00 5 [] 0. 64 0 -0.07 .0 25 +. 0 0 0 -.002 [] 6 5.08 0.12[...]
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Mechanical Drawings s 34 Thermal and Mechanical Design Guidelines Figure 15. (G)MCH Reference Heatsink for ATX Platf orms – R amp Retainer Sheet 1 2X 31.1 1.225 [] 6 2 0.05 .0 7 9 .0 01 [] 6 61. 51 2.422 [] 6 70.49 2. 775 [] 2X 27.95 1.1 00 [] 3 .11 8 [] NOT ES: 1. T HIS DRA W ING T O BE U S E D IN CO NJUNCT IO N W IT H SUP P LIED 3D DATABASE FIL[...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 35 Figure 16. (G)MCH Reference Heatsink for ATX Platf orms – R amp Retainer Sheet 2 B B 6 1. 75 .06 9 [] 2.7 5 .108 [] 6 0.5 .02 0 [] 4 .15 7 [] 6 5. 56 . 219 [] 2X 6 2.9 . 114 [] 6.4 . 252 [] 6 3. 15 . 124 [] 6 4. 7 5 . 187 [] 3 .118 [] 5.2 . 205 [] 1. 19 . 047 [] 6.5 5 .25 8 [] 2X 6 5[...]
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Mechanical Drawings s 36 Thermal and Mechanical Design Guidelines Figure 17. (G)MCH Reference Heatsink fo r ATX Platforms – Wire Preload Clip A A A A 46. 6 0. 5 1. 8 3 5 .0 19 [] 2X 90 TYP R 1 . 8 .07 1 [] 19.3 0. 5 .76 0 .0 19 [] 27.3 0. 5 1.075 .01 9 [] 4 27. 7 1. 090 [] 61.74 0. 5 2. 431 .019 [] 37.06 1.459 [] 2. 65 . 104 [] NOT ES: 1 . T HI S[...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 37 Figure 18. (G)MCH Reference Heatsink for Bala nced Technology Extended (BTX) Platforms A 24.2 .953 [] 47.8 8 1.885 [] 15 X EQ U AL SPAC ES () 1.94 .08 [] 2X 1.17 .046 [] 3.4 0. 2 .134 .007 [] () 15 .59 1 [] 19 .748 [] 19 .74 8 [] 2X 1.2 .04 7 [] 2X 7.25 0.2 .28 5 .0 07 [] 3 0.2 .118 .0[...]
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Mechanical Drawings s 38 Thermal and Mechanical Design Guidelines Figure 19. (G)MCH Reference Heatsink for Balanced Technology Extended (BTX) Platforms – Clip A A A A B B 2X 90 27. 3 1. 075 [] 47. 36 1. 865 [] R TYP 1. 3 . 051 [] 8. 87 1. 25 .3 4 9 .0 4 9 [] 4 X R 1 .8 .0 7 1 [] 3. 8 . 150 [] 62. 6 1 2. 465 . 039 [] 25. 14 . 990 [] W IR E T E R M[...]
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Mechanical Drawings Thermal and Mechanical Design Guidelines 39 Figure 20. (G)MCH Reference Heatsink for Balanced Tec hnology Extended (BTX) Platforms – Heatsink Assembly () 55.88 2.200 [] C () 33 1.299 [] B () 19 .748 [] () 19 .748 [] N O TES: 1 . THIS DRAWIN G TO BE USE D IN C O NJ UN CT IO N WITH SUP P L IED 3 D DATABASE F I L E. AL L D IMENS [...]