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Intel DBS1200V3RPS Bedienungsanleitung

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Inhaltsverzeichnis der Gebrauchsanleitungen

  • Seite 1

    Document Number: 3249 73-001 Intel ® Xeon ® Processor E3-1200 Product Family and LGA 1155 Socket Thermal/Mechanical Specificat ions and Design Guidelines April 2011[...]

  • Seite 2

    2 Thermal/Mechanical Specifications and Design Guidelines Legal Lines and Disclaime rs NFORMA TION IN THIS DOCUMENT IS PROV IDED IN CONNECTION WITH IN TEL® PROD UCTS. NO LICENS E, EXPRESS OR IMPLIE D, 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 I[...]

  • Seite 3

    Thermal/Mechanical Specificat ions and Design Guideline 3 Contents 1I n t r o d u c t i o n ....... ........... .......... ......... .......... ......... .......... ......... .......... ........... ........ ...... 9 1.1 References .... ........... ........ ........... ........ ........... ........ ........... .......... ......... .......... .. 10 1[...]

  • Seite 4

    4 Thermal/Mechanical Specificat ions and Design Guideline 6.1.4 I ntel ® Xeon ® Processor E3-1220L (20W) Thermal Profile.... ............ .............. 47 6.1.5 I ntel ® Xeon ® Processor E3-1200 (95W) with Integrated Graphics Thermal Prof ile ........... .......... ............. ........... .......... ............. ...... 48 6.1.6 Processor Sp[...]

  • Seite 5

    Thermal/Mechanical Specificat ions and Design Guideline 5 11 Thermal Solution Quality and Reliability Requirements ................. ........ ........... ........ 89 11.1 Reference Heatsink Thermal V erification . .......... .......... ........... ........ ........... ........ .... 89 11.2 Mechanical Environmental Testing ..... ............ .. ....[...]

  • Seite 6

    6 Thermal/Mechanical Specificat ions and Design Guideline 10-1 Mechanical Representation of the Solution...... ........... ........ ........... .......... ......... ...... 83 10-2 Physical Space Requirements for the Solution (side view) ................. ........... .......... .. 84 10-3 Physical Space Requirements for the Solution (top view) .....[...]

  • Seite 7

    Thermal/Mechanical Specificat ions and Design Guideline 7 Tables 1-1 Referen ce Documents .... ........ ........... ........ ........... ........ ........... .......... ......... ........ 10 1-2 Terms and Descrip tions ................... .......... ............. ........... .......... ............. .......... 10 2-1 Processor Loading S pecificatio[...]

  • Seite 8

    8 Thermal/Mechanical Specificat ions and Design Guideline Revision History § Document Number Description Date 324973-001 • Initial release of the document. April 2011[...]

  • Seite 9

    Thermal/Mechanical Specificat ions and Design Guidelines 9 Introduction 1 Introduction This document is intended to provide guide lines for design of thermal and mechanical solution. Meanwhile therm al and mechanical specifications for the processor and associated socket are included. The components described in this document include: • The therm[...]

  • Seite 10

    Introduction 10 Thermal/Mechanical Specifications and Design Guidelines 1.1 References Material and concepts av ailable in the following documents may be beneficial when reading this document. 1.2 Definition of Terms Table 1-1. Reference Documents Document Location Notes Intel® Xeon® Processor E3-1200 Family Data Sheet Volume One http:// www.inte[...]

  • Seite 11

    Thermal/Mechanical Specificat ions and Design Guidelines 11 Introduction § T CASE _ MAX The maximum case temper ature as specified in a component specification. TCC Thermal Control Circuit: Thermal moni tor uses the TCC to re duce the die temper ature by using cloc k modulation and/or oper ating frequency and input volt age adjustment when the die[...]

  • Seite 12

    Introduction 12 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 13

    Thermal/Mechanical Specificat ions and Design Guidelines 13 Package Mechanical & Storage Specifications 2 Package Mechanical & Storage Specifications 2.1 Package Mechanical Specifications The processor is packaged in a Flip-Chip Land Grid Arr ay package that interfaces with the motherboard via the LGA1155 socket. The package consists of a p[...]

  • Seite 14

    Package Mechanical & S torage Specifications 14 Thermal/Mechanical Specifications and Design Guidelines 2.1.1 Package Mechanical Drawing Figure 2-2 shows the basic package layout and dimensions. The detailed package mechanical drawings are in Appendix D . The dr awings include dimensions necessary to design a thermal solution for the processor [...]

  • Seite 15

    Thermal/Mechanical Specificat ions and Design Guidelines 15 Package Mechanical & Storage Specifications 2.1.3 Package Loading Specifications Ta b l e 2 - 1 provides dynamic and static load spec ifications for the processor package. These mechanical maximum load limits shou ld not be ex ceeded during heatsink assembly , shipping conditions, or s[...]

  • Seite 16

    Package Mechanical & S torage Specifications 16 Thermal/Mechanical Specifications and Design Guidelines 2.1.7 Processor Materials Ta b l e 2 - 3 lists some of the package components and associated materials. 2.1.8 Processor Markings Figure 2-3 shows the topside markings on the proc essor . This diagr am is to aid in the identification of the pr[...]

  • Seite 17

    Thermal/Mechanical Specificat ions and Design Guidelines 17 Package Mechanical & Storage Specifications 2.1.9 Processor Land Coordinates Figure 2-4 shows the bottom view of the processor package. . Figure 2-4. Processor Pa ckage Lands Coordinates AY AV AT AP AM AK AH AF AD AB Y V T P M K H F D B AW AU AR AN AL AJ AG AE AC AA W U N R K J G E C A[...]

  • Seite 18

    Package Mechanical & S torage Specifications 18 Thermal/Mechanical Specifications and Design Guidelines 2.2 Processor Storage Specifications Ta b l e 2 - 4 includes a list of the specifications for device storage in terms of maximum and minimum temperatures and relative humidity . These conditions should not be exceeded in storage or transporta[...]

  • Seite 19

    Thermal/Mechanical Specificat ions and Design Guidelines 19 LGA1155 Socket 3 LGA1155 Socket This chapter describes a surface mount, LGA (L and Grid Arra y) socket intended for the processors. The socket provides I/O , power and ground contacts. The sock et contains 1155 contacts array ed about a cavity in the ce nter of the socket with lead-free so[...]

  • Seite 20

    LGA1155 Socket 20 Thermal/Mechanical Specifications and Design Guidelines 3.1 Board Layout The land pattern for the LGA1155 socket is 36 mi ls X 36 mils (X by Y) within each of the two L -shaped sections. Note that there is no round-off (conversion) error between socket pitch (0.9144 mm) and board pitch (36 mil) as the se values are equivalent. The[...]

  • Seite 21

    Thermal/Mechanical Specificat ions and Design Guidelines 21 LGA1155 Socket Figure 3-3. LGA1155 S ocke t Land Pattern (Top View of Board) A C E G J L N R U W AA AC AE AG AJ A L AN AR AU AW B D F H K M P T V Y AB AD AF AH AK AM AP A T AV AY 1 3 7 5 9 11 15 13 17 19 23 21 25 27 29 2 8 4 6 10 16 12 14 18 24 20 22 26 28 30 32 15 11 14 12 13 16 17 23 19 [...]

  • Seite 22

    LGA1155 Socket 22 Thermal/Mechanical Specifications and Design Guidelines 3.1.1 Suggested Silkscreen Mark ing for Socket Identification Intel is recommending that customers mark the socket name approximately where shown in Figure 3-4 . 3.2 Attachment to Motherboard The socket is attached to the motherboard by 1155 solder balls. There are no additio[...]

  • Seite 23

    Thermal/Mechanical Specificat ions and Design Guidelines 23 LGA1155 Socket 3.3 Socket Components The socket has two main components, the sock et body and Pick and Place (PnP) cover , and is delivered as a single integr al assembly . R efer to Appendix C for detailed drawings. 3.3.1 Socket Body Housing The housing material is thermoplastic or equiv [...]

  • Seite 24

    LGA1155 Socket 24 Thermal/Mechanical Specifications and Design Guidelines Cover retention must be su fficient to support the sock et weight during lifting, translation, and placement (board manufa cturing), an d during board and system shipping and handling. PnP Cover should only be remo ved with tools, to prevent th e cover from falling into the c[...]

  • Seite 25

    Thermal/Mechanical Specificat ions and Design Guidelines 25 LGA1155 Socket . 3.4.1 Socket Standoffs an d Package Seating Plane Standoffs on the bottom of the socket base establish the minimum socket height after solder reflow and are specified in Appendix C . Similarly , a seating plane on the topsid e of the socket establishes the minimum package [...]

  • Seite 26

    LGA1155 Socket 26 Thermal/Mechanical Specifications and Design Guidelines All markings must withstand 260 °C for 40 seconds (typical reflow/rework profile) without degradin g, and must be visible after the socket is mounted on th e motherboard. LGA1155 and the manufacturer's insignia are molded or laser marked on the side wall. 3.7 Component [...]

  • Seite 27

    Thermal/Mechanical Specificat ions and Design Guidelines 27 Independent Loading Mechanism (ILM ) 4 Independent Loading Mechanism (ILM) The ILM has two critical functions: deliver the force to seat the processor onto the socket contacts and distribute the resulting compressive load evenly through the socket solder joints. The mechanical design of th[...]

  • Seite 28

    Independent Loading Mechanism (I LM) 28 Thermal/Mechanical Specifications and Design Guidelines 4.1.2 ILM Back Plate Design Overview The back plate is a flat steel back plate with pierced and extruded features for ILM attach. A clearance hole is located at the center of the plate to allow access to test points and backside capacitors if required. A[...]

  • Seite 29

    Thermal/Mechanical Specificat ions and Design Guidelines 29 Independent Loading Mechanism (ILM ) 4.1.3 Shoulder Screw and Fa steners Design Overview The shoulder screw is fabricated from carbonized steel rod. The shoulder height and diameter are integral to the mechanical perf ormance of the ILM. The diameter provides alignment of the load plate. T[...]

  • Seite 30

    Independent Loading Mechanism (I LM) 30 Thermal/Mechanical Specifications and Design Guidelines 4.2 Assembly of ILM to a Motherboard The ILM design allows a bottoms up assemb ly of the components to th e board. See Figure 4-4 for step by step assembly sequence. 1. Place the back plate in a fixture. The moth erboard is aligne d with the fixture . 2.[...]

  • Seite 31

    Thermal/Mechanical Specificat ions and Design Guidelines 31 Independent Loading Mechanism (ILM ) . Note: Here ILM assembly shown in figure is without ILM co ver preinstalled. As indicated in Figure 4-5 , the shoulder screw , socket protrusion and ILM key features prevent 180 degree rotation of ILM cover assemb ly with respect to socket. The result [...]

  • Seite 32

    Independent Loading Mechanism (I LM) 32 Thermal/Mechanical Specifications and Design Guidelines 4.3 ILM Interchangeability ILM assembly and ILM back plate built from the Intel controlled dra wings are intended to be interchangeable. Interchangeability is def ined as an ILM from V endor A will demonstrate acceptable manufactur ability and reliabilit[...]

  • Seite 33

    Thermal/Mechanical Specificat ions and Design Guidelines 33 Independent Loading Mechanism (ILM ) 4.5 ILM Cover Intel has developed an ILM Cover that will snap onto the ILM for the LGA115x socket family . The ILM co ver is intended to reduce the potential for socket contact damage from operator and customer fingers being close to the sock et contact[...]

  • Seite 34

    Independent Loading Mechanism (I LM) 34 Thermal/Mechanical Specifications and Design Guidelines As indicated in Figure 4-6 , the pick and place cover should remain installed during ILM assembly to the motherboard. After assemb ly , the pick and place co ver is remov ed, and the ILM mechanism (with the ILM cover installed) closed to protect the cont[...]

  • Seite 35

    Thermal/Mechanical Specificat ions and Design Guidelines 35 Independent Loading Mechanism (ILM ) As indicated in Figure 4-7 , the pick and place cover cannot remain in place and used in conjunction with the ILM Co ver . The ILM Cove r is designed to interfere and pop off if the pick and place cover is unintentionally left in place. The ILM cover wi[...]

  • Seite 36

    Independent Loading Mechanism (I LM) 36 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 37

    Thermal/Mechanical Specificat ions and Design Guidelines 37 LGA1155 Socket and ILM Electrica l, Mech anical and Environmental Specifications 5 LGA1155 Socket and ILM Electrical, Mechanical and Environmental Specifications This chapter describes the electrical, mechan ical and environmental specifications for the LGA1155 socket and the Independent L[...]

  • Seite 38

    LGA1155 Socket and ILM Electrical, Mec hanical and Environmental Specifications 38 Thermal/Mechanical Specifications and Design Guidelines 5.3 Loading Specifications The socket will be tested against the conditions listed in Chapter 11 with heatsink and the ILM attached, under the loading conditions outlined in this section. Ta b l e 5 - 3 provides[...]

  • Seite 39

    Thermal/Mechanical Specificat ions and Design Guidelines 39 LGA1155 Socket and ILM Electrica l, Mech anical and Environmental Specifications 5.5 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 section ar[...]

  • Seite 40

    LGA1155 Socket and ILM Electrical, Mec hanical and Environmental Specifications 40 Thermal/Mechanical Specifications and Design Guidelines A detailed description of this methodology can be found at: ftp://download.intel.com/ technology/itj/q32000/pdf/reliability .pdf . § Figure 5-1. Flow Chart of Knowledge-Based Reliabilit y Evaluation Methodol og[...]

  • Seite 41

    Thermal/Mechanical Specificat ions and Design Guidelines 41 Thermal Specifications 6 Thermal Specifications The processor requires a thermal solution to maintain temper atures within its oper ating limits. Any attempt to operate th e processo r outside these operating limits ma y result in permanent damage to the processor and potentially other com[...]

  • Seite 42

    Thermal Specifications 42 Thermal/Mechanical Specifications and Design Guidelines Section 6.2 . T o ensure maximum flexibility for future processors, systems should be designed to the Thermal Solution Capability guidelines, even if a processor with lower power dissipation is currently planned. Notes: 1. The package C-state power is the worst case p[...]

  • Seite 43

    Thermal/Mechanical Specificat ions and Design Guidelines 43 Thermal Specifications 6.1.1 Intel ® Xeon ® Processor E3-1280 (95W)Thermal Profile Notes: 1. Please refer to Ta b l e 6 - 2 for discrete points that constitute the thermal profile. 2. Refer to Chapter 9 and Chapter 11 for system and environmental implementation details. Figure 6-1. Therm[...]

  • Seite 44

    Thermal Specifications 44 Thermal/Mechanical Specifications and Design Guidelines 6.1.2 Intel ® Xeon ® Processor E3-1200 (8 0W) Thermal Profile Notes: 1. Please refer to Ta b l e 6 - 3 for discrete points that constitute the thermal profile. 2. Refer to Chapter 9 and Chapter 11 for system and environmental implementation details. 30 54.1 80 69.1 [...]

  • Seite 45

    Thermal/Mechanical Specificat ions and Design Guidelines 45 Thermal Specifications Table 6-3. Thermal Te st Vehicle Thermal Profile for Intel ® Xeon ® Processor E3-1200 (80W) Power (W) T CASE_M AX ( ° C) Power (W) T CASE_MA X ( ° C) 0 45.1 42 57.7 2 45.7 44 58.3 4 46.3 46 58.9 6 46.9 48 59.5 8 47.5 50 60.1 10 48.1 52 60.7 12 48.7 54 61.3 14 49.[...]

  • Seite 46

    Thermal Specifications 46 Thermal/Mechanical Specifications and Design Guidelines 6.1.3 Intel ® Xeon ® Processor E3-1260L (45W) Thermal Profile Notes: 1. Please refer to Ta b l e 6 - 4 for discrete points that constitute the thermal profile. 2. Refer to Chapter 9 and Chapter 11 for system and environmental implementation details. Figure 6-3. Ther[...]

  • Seite 47

    Thermal/Mechanical Specificat ions and Design Guidelines 47 Thermal Specifications 6.1.4 Intel ® Xeon ® Processor E3-1220L ( 20W) Thermal Profile Notes: 1. Please refer to Ta b l e 6 - 5 for discrete points that constitute the thermal profile. 2. Refer to Chapter 9 and Chapter 11 for system and environmental implementation details. Figure 6-4. Th[...]

  • Seite 48

    Thermal Specifications 48 Thermal/Mechanical Specifications and Design Guidelines 6.1.5 Intel ® Xeon ® Processor E3-1200 (95W ) with Integrated Graphics Ther mal Profile Notes: 1. Please refer to Ta b l e 6 - 6 for discrete points that constitute the thermal profile. 2. Refer to Chapter 11 for system and environmental implementation details. Figu[...]

  • Seite 49

    Thermal/Mechanical Specificat ions and Design Guidelines 49 Thermal Specifications 6.1.6 Processor Specification for Operation Where Digital Thermal Sensor Exceeds T CONTROL During operation, when the D TS value is greater than T CONTRO L , the fan speed control algorithm must drive the fan speed to meet or exceed the target thermal solution perfor[...]

  • Seite 50

    Thermal Specifications 50 Thermal/Mechanical Specifications and Design Guidelines Notes: 1. The ambient temperature is measured at th e inlet to the processor thermal solution. 2. This column can be expressed as a function of T AMBIENT by the following equation: Y CA = 0.30 + (45.1 - T AMBIENT ) x 0.0178 3. This column can be expressed as a functio[...]

  • Seite 51

    Thermal/Mechanical Specificat ions and Design Guidelines 51 Thermal Specifications Notes: 1. The ambient temperature is measured at the inlet to the processor thermal solution. 2. This column can be expre ssed as a function of T AMBI ENT by the following equation: Y CA = 0.3 + (45.1 - T AMBIENT ) x 0.0212 3. This column can be expre ssed as a funct[...]

  • Seite 52

    Thermal Specifications 52 Thermal/Mechanical Specifications and Design Guidelines Notes: 1. The ambient temperature is measured at th e inlet to the processor thermal solution. 2. This column can be expressed as a function of T AMBIENT by the following equation: Y CA = 0.3 + (45.1 - T AMBIENT ) x 0.0377 3. This column can be expressed as a function[...]

  • Seite 53

    Thermal/Mechanical Specificat ions and Design Guidelines 53 Thermal Specifications Notes: 1. The ambient temperature is measured at the inlet to the processor thermal solution. 2. This column can be expre ssed as a function of T AMBI ENT by the following equation: Y CA = 0.45+ (68.5 - T AMBIENT ) x 0.0847 3. This column can be expre ssed as a funct[...]

  • Seite 54

    Thermal Specifications 54 Thermal/Mechanical Specifications and Design Guidelines 6.1.7 Thermal Metrology The maximum T TV case temperatures (T CASE-MAX ) can be derived from the data in the appropriate T TV thermal profile earlier in this chapter . The T TV T CASE is measured at the geometric top center of the T TV integrated heat spreader (IHS). [...]

  • Seite 55

    Thermal/Mechanical Specificat ions and Design Guidelines 55 Thermal Specifications control, similar to Thermal Monitor 2 (TM2) in previous gene ration processors) inv olves the processor reducing its operating frequenc y (via the core ratio multiplier) and input voltage (via the VID signals). This combinat ion of lower frequency and VID results in [...]

  • Seite 56

    Thermal Specifications 56 Thermal/Mechanical Specifications and Design Guidelines take place. This sequence of temperatur e checking and Frequency/VID reduction will continue until either the minimum frequency has been reached or the processor temperature has dropped below the TC C activation point. If the processor temperature remains above the TC[...]

  • Seite 57

    Thermal/Mechanical Specificat ions and Design Guidelines 57 Thermal Specifications A small amount of hysteresis has been included to prevent rapid activ e/inactive transitions of the T CC when the processor temperature is near its maximum operating temperature. Once the temperature has dropped below the maximum operating temperature, and the h yste[...]

  • Seite 58

    Thermal Specifications 58 Thermal/Mechanical Specifications and Design Guidelines transitioning to the minimum frequency an d corresponding voltage (using Freq/VID control). Clock modulation is not activ ated in this case. The T CC will remain active until the system de-asserts PROCHOT#. Use of PROCHO T# in bi-directional mode can allow VR thermal [...]

  • Seite 59

    Thermal/Mechanical Specificat ions and Design Guidelines 59 Thermal Specifications • The number of cores operating in the C0 state. • The estimated current consumption. • The estimated power consumption. •T h e t e m p e r a t u r e . Any of these factors can affect the maximum frequency for a given workload. If the power , current, or ther[...]

  • Seite 60

    Thermal Specifications 60 Thermal/Mechanical Specifications and Design Guidelines 6.4.1 Intel ® Turbo Boost Technology Power Contro l and Reporting When operating in the turbo mode, the processor will monitor its own power and adjust the turbo frequency to maintain the aver age power within limits over a thermally significant time period. The pack[...]

  • Seite 61

    Thermal/Mechanical Specificat ions and Design Guidelines 61 Thermal Specifications 6.4.2 Package Power Control The package power control allows for custom ization to implement optimal turbo within platform power delivery and package thermal solution limitations. 6.4.3 Power Plane Control The processor core and graphics core power plane controls all[...]

  • Seite 62

    Thermal Specifications 62 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 63

    Thermal/Mechanical Specificat ions and Design Guidelines 63 PECI Interf ace 7 PECI Interface 7.1 Platform Environment Control Interface (PECI) 7.1.1 Introduction PECI uses a single wire for self-clockin g and data transfer . The bus requires no additional control lines. The physical layer is a self -cl ocked one-wire bus that begins each bit with a[...]

  • Seite 64

    PECI Inte rface 64 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 65

    Thermal/Mechanical Specificat ions and Design Guidelines 65 Sensor Based Thermal Specification Design Guidanc e 8 Sensor Based Thermal Specification Design Guidance The sensor based thermal specification presen ts opportunities for the system designer to optimize the acoustics and simplify thermal validation. The sensor based specification utilizes[...]

  • Seite 66

    Sensor Based Thermal Specification Design Guidance 66 Thermal/Mechanical Specifications and Design Guidelines Figure 8-1. Comparison of Case Temper ature vs. Sensor Based Specification Power Sensor Base d Specification (DTS Tem p) TDP Tco ntr ol Ta = 30 C Ψ -ca = 0.564 Ψ -ca = 0.448 Power Curren t Spe cification (Case T emp) TDP Tco ntr ol Ta = 4[...]

  • Seite 67

    Thermal/Mechanical Specificat ions and Design Guidelines 67 Sensor Based Thermal Specification Design Guidanc e 8.2 Sensor Based Thermal Specification The sensor based thermal specification consists 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 [...]

  • Seite 68

    Sensor Based Thermal Specification Design Guidance 68 Thermal/Mechanical Specifications and Design Guidelines Note: This graph is pro vided as a reference, the complete thermal specification is in Chapter 6 . 8.2.2 Specification When DT S value is Gr eater than T CONTROL The product specification provides a table of Ψ CA val u e s a t DTS = T CONT[...]

  • Seite 69

    Thermal/Mechanical Specificat ions and Design Guidelines 69 Sensor Based Thermal Specification Design Guidanc e 8.3.2 Thermal Desi gn and Modelling Based on the boundary conditions, the designer can now make the design selection of the thermal solution components. The major com ponents that can be mixed are the fan, fin geometry , heat pip e or air[...]

  • Seite 70

    Sensor Based Thermal Specification Design Guidance 70 Thermal/Mechanical Specifications and Design Guidelines • When the DTS v alue is at or below T CONTROL , the fans can be slowed down - just as with prior processors. • When DTS is abov e T CONTROL , FSC algorithms will use knowle dge of T AMBIENT and Ψ CA vs. RPM to achieve the necessary le[...]

  • Seite 71

    Thermal/Mechanical Specificat ions and Design Guidelines 71 Sensor Based Thermal Specification Design Guidanc e 8.4.1 DTS 1.1 A New Fan Speed Control Algorithm without T AMBIENT Data In most system designs incorporating processor ambient inlet data in fan speed control adds design and validation complexity with a possible BOM cost impact to the sys[...]

  • Seite 72

    Sensor Based Thermal Specification Design Guidance 72 Thermal/Mechanical Specifications and Design Guidelines Notes: 1. Ψ CA at “DT S = T control ” is applicable to systems that has Intern al T ris e (T room temperature to Processor cooling fan inlet) of less than 10 °C . In case your expected T rise is grater than 10 °C a correction factor [...]

  • Seite 73

    Thermal/Mechanical Specificat ions and Design Guidelines 73 Sensor Based Thermal Specification Design Guidanc e 8.5 System Validation System v alidation should focus on ensuri ng the fan speed control algorithm is responding appropriately to the DTS v alues and T AMBI ENT data in the case of D TS 1.0 as well as any other device being monitored for [...]

  • Seite 74

    Sensor Based Thermal Specification Design Guidance 74 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 75

    75 1U Thermal Solution 9 1U Thermal Solution Note: The thermal mechanical solution informatio n shown in this document represents th e current state of the data and m ay be subject to modification.The information represents design targets, not commitments by Intel. This section describes the overall requiremen ts for enabled thermal solutions desig[...]

  • Seite 76

    1U Thermal Solution 76 Collaboration thermal solution Ψ ca (mean+3sigma) is computed to 0.319°C/W at the airflow of 15 CFM. As the Ta b l e 9 - 1 shown when T LA is 40 °C, equation representing thermal solution of this heatsink is calculated as: Y=0.319*X+40 where, Y = Processor T CASE V alue (°C) X = Processor Power V alue (W) Ta b l e 9 - 2 s[...]

  • Seite 77

    77 1U Thermal Solution Figure 9-2. 1U Collaboration He atsink Performan c e Cu rves Table 9-2. Comparison between TTV Th ermal Profile and Thermal Solution Performance for Intel ® Xeon ® Processor E3-1280 (95W) (Sheet 1 of 2) Power (W) TTV T CASE_MAX (°C) Thermal Solution T CASE_MA X (°C) Power (W) TTV T CASE_MAX (°C) Thermal Solution T CASE_M[...]

  • Seite 78

    1U Thermal Solution 78 9.2.2 Thermal Solution The collaboration thermal solution consists of two assemblies: heatsink assembly & back plate. Heatsink is designed with the Aluminum base and Aluminum stack fin, which volumetrically is 95x95x24.85 mm. The heatpipe technology is used in the heatsink to improv e thermal conduction. Heatsink back pla[...]

  • Seite 79

    79 1U Thermal Solution 9.2.3 Assembly The assembly process for the 1U collaboration heatsink with application of thermal interface material begins with placing back plate in a fixture. The motherboard is aligned with fixture. Next is to place the heatsink such that the heatsink fins are par allel to system airflow . While lowering the heatsink onto[...]

  • Seite 80

    1U Thermal Solution 80 9.3 1U Reference Heatsink 9.3.1 Heatsink Performance For 1U reference heatsink, see Appendix B for detailed drawings. Fi gure 9- 4 shows Ψ CA and pressure drop for the 1U reference he atsink versus the airflow provided. Best - fit equations are provided to prevent errors associated with reading the graph. This 1U Reference t[...]

  • Seite 81

    81 1U Thermal Solution 9.3.3 Assembly The assembly process is same as the way described in Section 9.2. 3 , please refer to it for more details. 9.4 Geometric Envelope for 1U Thermal Mechanical Design 9.5 Thermal Interface Material A thermal interface material (TIM) provides conductivity between the IHS and heatsink. The collaboration thermal solut[...]

  • Seite 82

    1U Thermal Solution 82 § Figure 9-6. TTV D ie Size and Orientation Die Centerline Package Centerline Drawing Not to Scale All Dimensions in mm 37.5 37.5 10.94 10.94[...]

  • Seite 83

    Thermal/Mechanical Specificat ions and Design Guidelines 83 Active Tower Thermal Solution 10 Active Tower Thermal Solution 10.1 Introduction This active tower thermal solution is intend ed for system integrators who build systems from baseboards and standard components. This chapter documents baseboard and system requirements for the cooling soluti[...]

  • Seite 84

    Active Tower Thermal Solution 84 Thermal/Mechanical Specifications and Design Guidelines 10.2 Mechanical Specifications 10.2.1 Cooling Solution Dimensions This section documents the mechanical specifications. Figure 10 -1 shows a mechanical representation of the solution. Clear ance is required around the fan heatsi nk to ensure unimpeded airflow f[...]

  • Seite 85

    Thermal/Mechanical Specificat ions and Design Guidelines 85 Active Tower Thermal Solution Note: Diagram does not show the attached hardware for the clip design and is provided only as a mechanical representation. 10.2.2 Retention Mechanism and He atsink Attach Clip Assembly The thermal solution requires a heatsink attach clip assembly , to secure t[...]

  • Seite 86

    Active Tower Thermal Solution 86 Thermal/Mechanical Specifications and Design Guidelines The power header on the baseboard must be positioned to allow the fan power cable to reach it. The power header identification an d location should be documented in the platform documentation, or on the system board itself . Figure 10-5 shows the location of th[...]

  • Seite 87

    Thermal/Mechanical Specificat ions and Design Guidelines 87 Active Tower Thermal Solution 10.4 Cooling Requirements The processor may be directly cooled with a fan heatsink. Howev er , meeting the processor's temperature specification is also a function of th e thermal design of the entire system, and ultimately the responsib ility of the syst[...]

  • Seite 88

    Active Tower Thermal Solution 88 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 89

    Thermal/Mechanical Specificat ions and Design Guidelines 89 Thermal Solution Quality and Reliability Requirements 11 Thermal Solution Quality and Reliability Requirements 11.1 Reference Heatsink Thermal Verification Each motherboard, heatsink and attach combination may v ary the mechanical loading of the component. Based on the end u ser environ me[...]

  • Seite 90

    Thermal Solution Quality and Reliability Requirements 90 Thermal/Mechanical Specifications and Design Guidelines 11.2.1 Recommended Test Sequence Each test sequence should start with components (that is, baseboard, heatsink assembly , and so on) that have not been prev iously submitted to any reliability testing. Prior to the mechanical shock &[...]

  • Seite 91

    Thermal/Mechanical Specificat ions and Design Guidelines 91 Thermal Solution Quality and Reliability Requirements 11.3 Material and Recycling Requirements Material shall be resistant to fungal gr owth. Examples of non-resistant materials include cellulose materials, animal and ve getab le based adhesiv es, grease, oils, and many h ydrocarbons. Synt[...]

  • Seite 92

    Thermal Solution Quality and Reliability Requirements 92 Thermal/Mechanical Specifications and Design Guidelines[...]

  • Seite 93

    Thermal/Mechanical Specificat ions and Design Guidelines 93 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 [...]

  • Seite 94

    Component Suppliers 94 Thermal/Mechanical Specifications and Design Guidelines The enabled components may not b e currently available from all suppliers. Contact the supplier directly to verify ti me of component av ailability . § LGA115x ILM cover only G12451-001 012-1000-5377 475973003 1-2134503-1 ACA -ZIF-127- P01 LGA115x ILM Back Plate (with s[...]

  • Seite 95

    Thermal/Mechanical Specificat ions and Design Guidelines 95 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 Zone Primary Side for 1U (T op) Figure B-1 Socket / Heatsink / ILM Keepout[...]

  • Seite 96

    Mech an ical D rawing s 96 Thermal/Mechanical Specifications and Design Guidelines Figure B-1. Socket / Heatsink / IL M Keepout Zone Primary Side f or 1U (Top)[...]

  • Seite 97

    Thermal/Mechanical Specificat ions and Design Guidelines 97 Mechanical Drawings Figure B-2. S o ck et / Heatsink / ILM Keep out Zone Secondary Side for 1U (Bottom)[...]

  • Seite 98

    Mech an ical D rawing s 98 Thermal/Mechanical Specifications and Design Guidelines Figure B-3. Socket / Processor / ILM Ke epout Z one Primary Side for 1U (Top) A A B B DEPARTMENT R 2200 MISSION COLLEGE BLVD. P.O. BOX 58119 SANTA CLARA, CA 95052-8119 PST-TMI TITLE LGA1156 & 1155 SOCKET, ILM & PROCESSOR KEEPIN SIZE DRAWING NUMBER REV A1 E213[...]

  • Seite 99

    Thermal/Mechanical Specificat ions and Design Guidelines 99 Mechanical Drawings Figure B-4. S o ck et / Processor / ILM Keepou t Zone Secondary Side f or 1U (Bottom) SIZE DRAWING NUMBER REV A1 E21320 J SCALE: NONE DO NOT SCALE DRAWING SHEET 2 OF 2 0.1 B C 25.81 18.00 0.00 0.00 18.00 3X NO ROUTE ON PRIMARY & SECONDARY SIDES 3 X 4.70 NO ROUTE ON [...]

  • Seite 100

    Mech an ical D rawing s 100 Thermal/Mechanical Specifications and Design Guidelines Figure B-5. 1U Collabora tion Heatsink Assembly A 4 B 3 C D 43 21 A 2 C 1 D A A E49069 1 B DWG. NO SHT. REV THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DISPLAYED O[...]

  • Seite 101

    Thermal/Mechanical Specificat ions and Design Guidelines 101 Mechanical Drawings ( Figure B-6. 1U Collaboration Heatsink A 4 B 3 C D 43 21 A 2 C 1 D E49059 1 C DWG. NO SHT. REV THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DISPLAYED OR MODIFIED, WIT[...]

  • Seite 102

    Mech an ical D rawing s 102 Thermal/Mechanical Specifications and Design Guidelines Figure B-7. 1U Reference Heatsink Assembl y[...]

  • Seite 103

    Thermal/Mechanical Specificat ions and Design Guidelines 103 Mechanical Drawings Figure B-8. 1 U R eference Heatsin k[...]

  • Seite 104

    Mech an ical D rawing s 104 Thermal/Mechanical Specifications and Design Guidelines Figure B-9. 1U Heatsink Scre w A 4 B 3 C D 43 21 A 2 C 1 D A A E50686 1 B DWG. NO SHT. REV THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DISPLAYED OR MODIFIED, WITHO[...]

  • Seite 105

    Thermal/Mechanical Specificat ions and Design Guidelines 105 Mechanical Drawings Figure B-10. Heatsink Com pression Spring[...]

  • Seite 106

    Mech an ical D rawing s 106 Thermal/Mechanical Specifications and Design Guidelines Figure B-11. Heatsink Load Cup[...]

  • Seite 107

    Thermal/Mechanical Specificat ions and Design Guidelines 107 Mechanical Drawings Figure B-12. Heatsink Retaining Ring[...]

  • Seite 108

    Mech an ical D rawing s 108 Thermal/Mechanical Specifications and Design Guidelines Figure B-13. Heatsink Backplate Assembly A 4 B 3 C D 43 21 A 2 C 1 D A A E49060-001 1C DWG. NO SHT. REV THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DISPLAYED OR MO[...]

  • Seite 109

    Thermal/Mechanical Specificat ions and Design Guidelines 109 Mechanical Drawings Figure B-14. Heatsink Back plat e[...]

  • Seite 110

    Mech an ical D rawing s 110 Thermal/Mechanical Specifications and Design Guidelines Figure B-15. Heatsink Backpl ate Insulator[...]

  • Seite 111

    Thermal/Mechanical Specificat ions and Design Guidelines 111 Mechanical Drawings Figure B-16. Heatsink Back plat e Stud A 4 B 3 C D 43 21 A 2 C 1 D A A FOXHOLLOW_THICK_BP_STANDOFF 1C DWG. NO SHT. REV THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDENCE AND ITS CONTENTS MAY NOT BE DISCLOSED, REPRODUCED, DIS[...]

  • Seite 112

    Mech an ical D rawing s 112 Thermal/Mechanical Specifications and Design Guidelines Figure B-17. Thermoco uple Attach Drawing A A C D PACKAGE CENTER REFERENCED FROM PACKAGE EDGES PACKAGE EDGES NOTE DIRECTION OF MILLED GROOVE RELATIVE TO ALIGNMENT NOTCHES. B SECTION A-A 0.0150 ±0.0015 0.381 ±0.038 0.020 ±0.003 0.51 ±0.08 DETAIL B SCALE 10 : 1 7.[...]

  • Seite 113

    Thermal/Mechanical Specificat ions and Design Guidelines 113 Mechanical Drawings Figure B-18. 1U ILM Shoulder Scre w 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 3 5.75± 0.05 0.1 A 3 7.25± 0.05 1.35±0.1 3 3.25± 0.05 3 6-32 UNC CLASS 2A THREAD 3.8± 0.2 45° X 0.35 ± 0.1 45° X 0.05 +0.2 0 THIS DRAWING CONTAINS INTEL CORPORAT[...]

  • Seite 114

    Mech an ical D rawing s 114 Thermal/Mechanical Specifications and Design Guidelines § Figure B-19. 1U ILM St anda rd 6-32 Thread Faste n e r 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 6.86 3 3 5.17± 0.2 MAX 2.41 PHYSICAL PAN HEAD HEIGHT THIS DRAWING CONTAINS INTEL CORPORATION CONFIDENTIAL INFORMATION. IT IS DISCLOSED IN CONFIDE[...]

  • Seite 115

    Thermal/Mechanical Specificat ions and Design Guidelines 115 Socket Mechanical Drawings C Socket Mechanical Drawings Ta b l e C - 1 lists the mechanical draw ings included in this appendix. Table C-1. Mechanical Drawing List Drawing Description Figure Number “Socket Mechanical Dr awing (Sheet 1 of 4)” Figure C -1 “Socket Mechanical Dr awing ([...]

  • Seite 116

    Socket Mechan ical D rawing s 116 Thermal/Mechanical Spec ifications and Design GuidelinesDocument Number: 448776 Rev. 2.0 Figure C-1. Socket Mechanic al Drawi ng (Sheet 1 of 4)[...]

  • Seite 117

    Thermal/Mechanical Specificat ions and Design Guidelines 117 Socket Mechanical Drawings Figure C-2. Socket Mechanic al Drawing (Sheet 2 of 4)[...]

  • Seite 118

    Socket Mechan ical D rawing s 118 Thermal/Mechanical Spec ifications and Design GuidelinesDocument Number: 448776 Rev. 2.0 ( Figure C-3. Socket Mechanic al Drawi ng (Sheet 3 of 4)[...]

  • Seite 119

    Thermal/Mechanical Specificat ions and Design Guidelines 119 Socket Mechanical Drawings § Figure C-4. Socket Mechanic al Drawing (Sheet 4 of 4)[...]

  • Seite 120

    Socket Mechan ical D rawing s 120 Thermal/Mechanical Spec ifications and Design GuidelinesDocument Number: 448776 Rev. 2.0[...]

  • Seite 121

    Thermal/Mechanical Specificat ions and Design Guidelines 121 Package Mechan ica l Drawin gs D Package Mechanical Drawings Ta b l e D - 1 lists the mechanical drawings included in this appendix. Table D-1. Mechanical Drawing List Drawing Description Figure Number “Processor P ackage Dra wing (Sheet 1 of 2)” Figure D-1 “Processor P ackage Dra w[...]

  • Seite 122

    Package Mech anical Drawin gs 122 Thermal/Mechanical Specifications and Design Guidelines Figure D-1. Processor Pack age Drawing (S heet 1 of 2)[...]

  • Seite 123

    Thermal/Mechanical Specificat ions and Design Guidelines 123 Package Mechan ica l Drawin gs § Figure D-2. Processor Pack age Drawing (Sheet 2of 2) .[...]

  • Seite 124

    Package Mech anical Drawin gs 124 Thermal/Mechanical Specifications and Design Guidelines[...]