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Законодательство обязывает продавца передать покупателю, вместе с товаром, руководство по эксплуатации HP Intel Xeon W3530. Отсутствие инструкции либо неправильная информация, переданная потребителю, составляют основание для рекламации в связи с несоответствием устройства с договором. В законодательстве допускается предоставлении руководства в другой, чем бумажная форме, что, в последнее время, часто используется, предоставляя графическую или электронную форму инструкции HP Intel Xeon W3530 или обучающее видео для пользователей. Условием остается четкая и понятная форма.
Что такое руководство?
Слово происходит от латинского "instructio", тоесть привести в порядок. Следовательно в инструкции HP Intel Xeon W3530 можно найти описание этапов поведения. Цель инструкции заключается в облегчении запуска, использования оборудования либо выполнения определенной деятельности. Инструкция является набором информации о предмете/услуге, подсказкой.
К сожалению немного пользователей находит время для чтения инструкций HP Intel Xeon W3530, и хорошая инструкция позволяет не только узнать ряд дополнительных функций приобретенного устройства, но и позволяет избежать возникновения большинства поломок.
Из чего должно состоять идеальное руководство по эксплуатации?
Прежде всего в инструкции HP Intel Xeon W3530 должна находится:
- информация относительно технических данных устройства HP Intel Xeon W3530
- название производителя и год производства оборудования HP Intel Xeon W3530
- правила обслуживания, настройки и ухода за оборудованием HP Intel Xeon W3530
- знаки безопасности и сертификаты, подтверждающие соответствие стандартам
Почему мы не читаем инструкций?
Как правило из-за нехватки времени и уверенности в отдельных функциональностях приобретенных устройств. К сожалению само подсоединение и запуск HP Intel Xeon W3530 это слишком мало. Инструкция заключает ряд отдельных указаний, касающихся функциональности, принципов безопасности, способов ухода (даже то, какие средства стоит использовать), возможных поломок HP Intel Xeon W3530 и способов решения проблем, возникающих во время использования. И наконец то, в инструкции можно найти адресные данные сайта HP, в случае отсутствия эффективности предлагаемых решений. Сейчас очень большой популярностью пользуются инструкции в форме интересных анимаций или видео материалов, которое лучше, чем брошюра воспринимаются пользователем. Такой вид инструкции позволяет пользователю просмотреть весь фильм, не пропуская спецификацию и сложные технические описания HP Intel Xeon W3530, как это часто бывает в случае бумажной версии.
Почему стоит читать инструкции?
Прежде всего здесь мы найдем ответы касательно конструкции, возможностей устройства HP Intel Xeon W3530, использования отдельных аксессуаров и ряд информации, позволяющей вполне использовать все функции и упрощения.
После удачной покупки оборудования/устройства стоит посвятить несколько минут для ознакомления с каждой частью инструкции HP Intel Xeon W3530. Сейчас их старательно готовят или переводят, чтобы они были не только понятными для пользователя, но и чтобы выполняли свою основную информационно-поддерживающую функцию.
Содержание руководства
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Document Number: 321461-001 Intel® Xeon® Processor 3500 Series Thermal / Mechanical Design Guide March 2009[...]
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2 Thermal and Mechanical Design Guide INFORMA TION IN THIS DOCUMENT IS PROVIDED IN CONNE CTION WITH INTEL® PRODUCTS. NO LICENSE, EXPRE SS OR IMPLIED, BY ESTOPPEL OR O THERWISE, TO ANY INTELLECTUAL PROPER TY RIGHTS IS GRANTED BY THIS DOCUMENT . EXCEPT AS PROVIDED IN INTEL'S TERMS AND CONDIT IONS OF SALE FOR SUCH PR ODUCTS, INTEL AS SUMES NO LI[...]
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Thermal and Mechanical Design Guide 3 Contents 1I n t r o d u c t i o n ......... ............. ............... ............ ............... ............... ............ ............... .... 7 1.1 References ........... ............ ............... ............. .............. ............... ............. ............ 8 1.2 Definition of Term s ..[...]
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4 Thermal and Mechanical Design Guide 6.4.1 Extrusion ............... ............. ............ ............... ............. ............ ...............42 6.4.2 Clip ........ ............... ............. ............ ............... ............. ............ ............. .. 43 6.4.3 Core ............... ............ ............. ............[...]
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Thermal and Mechanical Design Guide 5 B-6 Reference Design Heatsink Assembly (2 of 2) ........... ................. .............. ................. .. 57 B-7 Reference Fastener Sheet 1 of 4 . ............... ............... ............ ............... ............... ...... 58 B-8 Reference Fastener Sheet 2 of 4 . ............... ............... [...]
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6 Thermal and Mechanical Design Guide Revision History § Revision Number Description Revision Date -001 • Initial release March 2009[...]
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Thermal/Mechanical Design Guide 7 Introduction 1 Introduction This document provides guidelines for the design of thermal and mechanical solutions for the: • Intel® Xeon® Processor 3500 Series Unless specifically required for clarity , this document will use “processor ” in place of the specific product names. The components described in th[...]
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Introduction 8 Thermal/Mechanical Design Guide 1.1 References Material and concepts av ailable in the following documents may be beneficial when reading this document. Notes: 1. Av ailable electronically 1.2 Definition of Terms Table 1-1. Reference Documents Document Location Notes Intel® Xeon® Processor 3500 Series Processor Datasheet, Volume 1 [...]
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Thermal/Mechanical Design Guide 9 Introduction § TDP Thermal Design Power: T hermal solution sh ould be designed to dissipate this tar get power level. TDP is not the maximum power that the processor can di ssipate. Thermal Monitor A power reduction feature desig ned to decrease temperatur e after the processor has reached its maximum operating te[...]
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Introduction 10 Thermal/Mechanical Design Guide[...]
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Thermal/Mechanical Design Guide 11 LGA1366 Socket 2 LGA1366 Socket This chapter describes a surface mount, LG A (Land Grid Array) socket intended for Intel® Xeon® Processor 3500 Series. The socket provides I/O , power and ground contacts. The socket contains 1366 contacts arr ayed about a cavity in the center of the socket with lead-free solder b[...]
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LGA1366 Socket 12 Thermal/Mechanical Design Guide Figure 2-2. LGA1366 Socket C ontact Numbering (Top View of Socket) 31 29 27 25 23 21 19 17 15 13 11 9 7 5 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 BA AY AW AV AU AT AR AP AN AM AL AK AJ AH AG AF AE AD AC AB AA Y W V U T R P N M L K J H G F E D C B A BA AY AW AV AU AT AR AP AN AM AL AK AJ AH AG AF A[...]
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Thermal/Mechanical Design Guide 13 LGA1366 Socket 2.1 Board Layout The land pattern for the LGA1366 socket is 40 m ils X 40 mils (X by Y), and the pad size is 18 mils. Note that there is no round- off (conversion) error between socket pitch (1.016 mm) and board pitch (40 mil) as these values are equivalent. Figure 2-3. LGA1366 Socke t Land Pattern [...]
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LGA1366 Socket 14 Thermal/Mechanical Design Guide 2.2 Attachment to Motherboard The socket is attached to the motherboard by 1366 solder balls. There are no additional external methods (that is, screw , extra solder , adhesiv e, and so on) to attach the socket. As indicated in Figure 2-4 , the Independent Loading Mechanism (ILM) is not present duri[...]
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Thermal/Mechanical Design Guide 15 LGA1366 Socket 2.3.3 Contacts Base material for the contacts is high strength copper allo y . For the area o n socket contacts where processor lands will mate, there is a 0.381 μ m [15 μ inches] minimum gold plating over 1.27 μ m [50 μ inches] minimum nick el underplate. No contamination by solder in the conta[...]
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LGA1366 Socket 16 Thermal/Mechanical Design Guide 2.4 Package Installation / Removal As indicated in Figure 2-6 , access is provided to facilitate manual installation and removal of the package. T o assist in package orientation and alignment with the socket: • The package Pin1 triangle and the socket Pin1 chamfer provide visual reference for pro[...]
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Thermal/Mechanical Design Guide 17 LGA1366 Socket 2.5 Durability The socket must withstand 30 cycles of processor insertion and removal. The max chain contact resistance from Ta b l e 4 - 4 must be met when mated in the 1st and 30th cycles. The socket Pick and Place cover must withstand 15 cycles of insertion and removal. 2.6 Markings There are thr[...]
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LGA1366 Socket 18 Thermal/Mechanical Design Guide 2.9 LGA1366 Socket NCTF Solder Joints Intel has defined selected solder joints of th e sock et as non-critical to function (NCTF) for post environmental testing. The processor signals at NCTF locations are typically redundant ground or non-critical reserved, so the loss of the solder joint continuit[...]
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Thermal/Mechanical Design Guide 19 Independent Loading Mechanism (ILM ) 3 Independent Loading Mechanism (ILM) The Independent Loading Mechanism (ILM) pr ovides the force needed to se at the 1366-LGA land package onto the socket contacts. The ILM is physically separ ate from the socket body . The assembly of the ILM to the board is expected to occur[...]
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Independ ent Loading Mechan ism (ILM) 20 Thermal/Mechanical Design Guide 3.1.2 ILM Back Plate Design Overview The back plate for single processor workstation products consists of a flat steel back plate with threaded studs for ILM attach. The threaded studs have a smooth surface feature that provides alignment for the ba ck plate to the motherboard[...]
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Thermal/Mechanical Design Guide 21 Independent Loading Mechanism (ILM ) . Figure 3-2. ILM Assembly Socket Bo dy with Back Plat e on board Socket Bo dy Reflowe d on boar d Step 1 Step 2 Socket Bo dy with Back Plat e on board Socket Bo dy Reflowe d on boar d Step 1 Step 2[...]
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Independ ent Loading Mechan ism (ILM) 22 Thermal/Mechanical Design Guide As indicated in Figure 3-3 , soc ket protrusion and ILM key features prevent 180-degree rotation of ILM cover assembly with respect to the socket. The result is a specific Pin 1 orientation with respect to the ILM lever . § Figure 3-3. Pin1 and ILM Lever Protrusion ILM Lever [...]
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Thermal/Mechanical Design Guide 23 LGA1366 Socket and ILM Electrica l, Mechanical, and Environmental Specifications 4 LGA1366 Socket and ILM Electrical, Mechanical, and Environmental Specifications This chapter describes the electrical, mechan ical, and environmental specifications for the LGA1366 socket and the Independent Loading Mechanism. 4.1 C[...]
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LGA1366 Socket and ILM Electrical , Mechan ical, and Environmental Sp ecifications 24 Thermal/Mechanical Design Guide 4.4 Loading Specifications The socket will be tested against the conditions listed in Chapter 7 with heatsink and the ILM attached, under the loading conditions outlined in this chapter . Ta b l e 4 - 3 provides load specifications [...]
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Thermal/Mechanical Design Guide 25 LGA1366 Socket and ILM Electrica l, Mechanical, and Environmental Specifications 4.6 Environmental Requirements Design, including materials, shall be consiste nt with the manufacture of units that meet the following environmental reference points. The reliability targets in this chapter are ba sed on the expected [...]
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LGA1366 Socket and ILM Electrical , Mechan ical, and Environmental Sp ecifications 26 Thermal/Mechanical Design Guide A detailed description of this methodology can be found at: ftp://download.intel.com/technology/itj/q32000/pdf/reliability .pd f . § Figure 4-1. Flow Chart of Knowledge-Based Reliabilit y Evaluati on Methodology Establish t he mark[...]
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Thermal/Mechanical Design Guide 27 Sensor Based Thermal Specification Design Guidance 5 Sensor Based Thermal Specification Design Guidance The introduction of the sen sor based therma l specification presents opportunities for the system designer to optimize the acou stics and simplify thermal validation. The sensor based specification utilizes the[...]
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Sensor Based Thermal Specification Design Guidance 28 Thermal/Mechanical Design Guide 5.2 Sensor Based Thermal Specification The sensor based thermal specification consis ts of two parts. The first is a thermal profile that defines the maximum T TV T CASE as a function of T TV power dissipation. The thermal profile defines the boundary conditions f[...]
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Thermal/Mechanical Design Guide 29 Sensor Based Thermal Specification Design Guidance As in previous product specifications, a know ledge of the system boundary conditions is necessary to perform the heatsink validation. Section 5.3.1 will provide more detail on defining the boundary conditions. The T TV is placed in the sock et and powered to the [...]
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Sensor Based Thermal Specification Design Guidance 30 Thermal/Mechanical Design Guide 5.3 Thermal Solution Design Process Thermal solution design guidance for this sp ecification is the same as with previous products. The initial design must take into account the target market and overall product requirements for the system. This can be broken down[...]
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Thermal/Mechanical Design Guide 31 Sensor Based Thermal Specification Design Guidance Note: If the assumed T AMBIENT is inappropriate for the intended system environment, the thermal solution performance ma y not be sufficient to meet the product requirements. The results may be excessive noise from fans having to operate at a speed higher than int[...]
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Sensor Based Thermal Specification Design Guidance 32 Thermal/Mechanical Design Guide 5.3.3 Thermal Solution Validation 5.3.3.1 Test for Compliance to the TTV Therm al Profile This step is the same as previously sugges ted for prior products. The thermal solution is mounted on a test fixture with the TTV and tested at the following conditions: • [...]
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Thermal/Mechanical Design Guide 33 Sensor Based Thermal Specification Design Guidance Note: This data is taken from the validation of the RCBF5 reference processor thermal solution. The Ψ CA vs. RPM data is available in Ta b l e 5 - 1 at the end of this chapter . 5.4 Fan Speed Control (FSC) Design Process The next step is to incorporate the therma[...]
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Sensor Based Thermal Specification Design Guidance 34 Thermal/Mechanical Design Guide 5.4.1 Fan Speed Contro l Algorithm without T AMBIENT Data In a system that does not provide the FSC algorithm with the T AMBIENT information, the designer must make the following assumption: • When the D TS value is greater than T CONTROL the T AMBIENT is at bou[...]
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Thermal/Mechanical Design Guide 35 Sensor Based Thermal Specification Design Guidance 5.4.2 Fan Speed Contro l Algorithm with T AMBIENT Data In a system where the FSC algorithm has access to the T AMBIENT information and is capable of using the data the benefits of the D TS thermal specification become more striking. As will be demonstrated below ,[...]
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Sensor Based Thermal Specification Design Guidance 36 Thermal/Mechanical Design Guide 5.5 System Validation System v alidation should focus on ensuring the fan speed control algorithm is responding appropriately to the DT S values and T AMBIENT data as well as any other device being monitored for thermal compliance. Since the processor thermal solu[...]
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Thermal/Mechanical Design Guide 37 Sensor Based Thermal Specification Design Guidance 5.6 Specification for Operation Where Digital Thermal Sensor Exceeds T CONTROL Ta b l e 5 - 1 is provided as reference for the deve lopment of thermal solutions and the fan speed control algorithm. Notes: 1. The ambient temperature is measured at the inlet to the [...]
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Sensor Based Thermal Specification Design Guidance 38 Thermal/Mechanical Design Guide[...]
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Thermal/Mechanical Design Guide 39 ATX Reference Thermal Solution 6 ATX Reference Thermal Solution Note: The reference thermal mechanical solution information shown in this document represents the current state of the data and may be subject to modification.The information represents design targets, not commitmen ts by Intel. The design strategy is[...]
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ATX Reference Thermal Solution 40 Thermal/Mechanical Design Guide 6.2 Heatsink Thermal Solution Assembly The reference thermal solution for the processo r is an active fan solution similar to the prior designs for the Intel® Pentium® 4 and Intel® Core™2 Duo processors. The design uses a copper core with an aluminum extrusion. It attaches to th[...]
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Thermal/Mechanical Design Guide 41 ATX Reference Thermal Solution 6.3 Geometric Envelope for the Intel ® Reference ATX Thermal Mechanical Design Figure 6-2 shows a 3-D representation of the bo ard component keep out for the reference A TX thermal solution. A fully dimensioned drawing of the keepout information is available at Figure B-1 and Figure[...]
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ATX Reference Thermal Solution 42 Thermal/Mechanical Design Guide 6.4 Reference Design Co mponents 6.4.1 Extrusion The aluminum extrusion is a 51 fin 102 mm di ameter bifurcated fin design. The over all height of the extrusion is 38 mm tall. T o facilitate reuse of the core design the center cylinder ID and wall thickness are the same as RCFH4. Fig[...]
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Thermal/Mechanical Design Guide 43 ATX Reference Thermal Solution 6.4.2 Clip Structural design str ategy for the clip is to provide sufficient load for the Thermal Interface Material (TIM). The clip is formed from 1.6 mm carbon steel, th e same material as used in previous clip designs. The target metal clip nominal stiffness is 376 N/mm [2150 lb/i[...]
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ATX Reference Thermal Solution 44 Thermal/Mechanical Design Guide 6.4.3 Core The core is the same forged design used in RCFH4. This allows the reuse of the fan attach and if desired the same extrusion as used in RCFH4. The machined flange height has been reduced from the RCFH4 design to match the IHS height for the Intel® X eon® Processor 35 00 S[...]
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Thermal/Mechanical Design Guide 45 ATX Reference Thermal Solution Figure 6-6. Clip Core and Extrusi on Assembly Figure 6-7. Cri tical Parameters for Interface to the Reference Cli p Core shoulder traps clip in place Core shoulder traps clip in place Clip Core Fin Array Fan Clip See Deta il A Core Fin Array Fan Clip See Deta il A Detail A Fin Array [...]
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ATX Reference Thermal Solution 46 Thermal/Mechanical Design Guide 6.6 Heatsink Mass and Center of Gravity • T otal asse mbly mass ≤ 550 gm (grams), excluding clip and fasteners • T otal mass including clip and fasteners < 595 g • Assembly center of gravity ≤ 25.4 mm, measured from the top of the IHS 6.7 Thermal Interface Material A the[...]
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Thermal/Mechanical Design Guide 47 Thermal Solution Quality and Reliability Requirements 7 Thermal Solution Quality and Reliability Requirements 7.1 Reference Heatsink Thermal Verification Each motherboard, heatsink and attach combination may v ary the mechanical loading of the component. Based on the end user environment, the us er should define t[...]
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Thermal Solution Quality and Reliability Requirements 48 Thermal/Mechanical Design Guide 7.2.2 Post-Test Pass Criteria The post-test pass criteria are: 1. No significant physical damage to the heatsink and retention hardware. 2. Heatsink remains seated and its bottom remains mated flatly against the IHS surface. No visible gap between the heatsink [...]
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Thermal/Mechanical Design Guide 49 Component Suppliers A Component Suppliers Note: The part numbers listed below identifies the reference components. End-users are responsible for the verification o f the Intel enabled component offerings with the supplier . These vendors and devices are listed by Intel as a convenience to Intel's general cust[...]
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Component Suppliers 50 Thermal/Mechanical Design Guide[...]
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Thermal/Mechanical Design Guide 51 Mechanical Drawings B Mechanical Drawings Ta b l e B - 1 lists the mechanical drawings included in this appendix. Table B-1. Mechanical Drawing List Drawing Description Figure Number “Socket / Heatsink / ILM K eepout Z one Primary Side (T op)” Figure B-1 “Socket / Heatsink / ILM K eepout Z one Secondary Side[...]
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Mechanical Drawings 52 Thermal/Mechanical Design Guide Figure B-1. Socket / Heatsink / IL M Keepout Zone Primary Side (Top) 8 7 6 5 4 3 2 H G F E D C B A 8 7 6 5 4 3 2 1 H G F E D C B A 4X NPTH LOCATION 0.1 RADIAL TRUE POSITION RELATIVE TO SOCKET CENTER. 4.03 +0.05 -0.03 4X NO ROUTE 6.00 (104.00 ) 40.00 40.00 30.60 30.60 0.00 18.00 18.00 40.00 40.0[...]
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Thermal/Mechanical Design Guide 53 Mechanical Drawings Figure B-2. Socket / Heatsink / ILM Keepout Zone Secondary Side (Bottom ) H G F E D C B A H G F E D C B A 8 7 6 5 4 3 2 8 7 6 5 4 3 2 1 23.50 0.00 23.50 36.10 0.00 36.10 4X 10.00 4X 6.00 (14.00 ) (19.00 ) R 4 X 2.00 (80.00 ) (80.00 ) (30.60 ) (30.60 ) (36.00 ) (47.00 ) (72.20 ) THIS DRAWING CON[...]
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Mechanical Drawings 54 Thermal/Mechanical Design Guide Figure B-3. Socket / Processor / IL M Keep out Zone Primary Side (Top)[...]
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Thermal/Mechanical Design Guide 55 Mechanical Drawings Figure B-4. Socket / Processor / ILM Keepout Zo ne Secondary Side (Bottom)[...]
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Mechanical Drawings 56 Thermal/Mechanical Design Guide Figure B-5. Reference Design Heatsink Assemb ly (1 o f 2)[...]
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Thermal/Mechanical Design Guide 57 Mechanical Drawings Figure B-6. Reference Design Heatsink Assembly (2 of 2)[...]
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Mechanical Drawings 58 Thermal/Mechanical Design Guide Figure B-7. Reference Fastener Sheet 1 of 4[...]
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Thermal/Mechanical Design Guide 59 Mechanical Drawings Figure B-8. Reference Fastener Sheet 2 of 4[...]
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Mechanical Drawings 60 Thermal/Mechanical Design Guide Figure B-9. Reference Fastener Sheet 3 of 4[...]
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Thermal/Mechanical Design Guide 61 Mechanical Drawings Figure B-10. Referen ce Fastener Sheet 4 of 4[...]
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Mechanical Drawings 62 Thermal/Mechanical Design Guide Figure B-11. Reference Cl ip - Sheet 1 of 2 8 7 6 5 4 3 2 H G F E D C B A 8 7 6 5 4 3 2 1 H G F E D C B A A A THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DISPLAYED OR MODIFIED, WITHOUT THE PRI[...]
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Thermal/Mechanical Design Guide 63 Mechanical Drawings § Figure B-12. Reference Clip - Sheet 2 of 2 1 3 4 5 6 7 8 B C D A 1 2 3 4 5 6 7 8 B C D A THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DISPLAYED OR MODIFIED, WITHOUT THE PRIOR WRITTEN CONSENT[...]
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Mechanical Drawings 64 Thermal/Mechanical Design Guide[...]
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Thermal/Mechanical Design Guide 65 Socket Mechanical Drawings C Socket Mechanical Drawings Ta b l e C - 1 lists the mechanical drawings included in this appendix. Table C-1. Mechani cal Drawing List Drawing Description Figure Number “Socket Mechanical Dra wing (Sheet 1 of 4)” Figure C-1 “Socket Mechanical Dra wing (Sheet 2 of 4)” Figure C-2[...]
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Socket Mechanical Drawings 66 Thermal/Mechanical Design Guide Figure C-1. Socket Mechanic al Drawing (Sheet 1 of 4)[...]
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Thermal/Mechanical Design Guide 67 Socket Mechanical Drawings Figure C-2. Socket Mechanic al Drawing (Sheet 2 of 4)[...]
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Socket Mechanical Drawings 68 Thermal/Mechanical Design Guide Figure C-3. Socket Mechanic al Drawing (Sheet 3 of 4)[...]
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Thermal/Mechanical Design Guide 69 Socket Mechanical Drawings § Figure C-4. Socket Mechanic al Drawing (Sheet 4 of 4)[...]
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Socket Mechanical Drawings 70 Thermal/Mechanical Design Guide[...]
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Thermal/Mechanical Design Guide 71 Processor Installation Tool D Processor Installation Tool The following optional tool is designed to provide mechanical assistance during processor installation and removal. Contact the supplier for av ailability: Billy Hsieh billy . hsieh@tycoelec tronics.co m +81 44 844 8292[...]
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Processor Installation Tool 72 Thermal/Mechanical Design Guide § Figure D-1. Processor Installation Tool[...]