Mechanical Design Guidelines
Page 2
... arising from published specifications. Copyright © 2008-2010 Intel Corporation 2 Thermal and Mechanical Design Guidelines The Intel® Core™2 Duo processor E8000, E7000 series and Intel® Pentium® Dual-Core processor E6000, E5000 series and Intel® Celeron® processor E3000 series components may make changes to them. Current roadmap processor number progression is not necessarily representative of its product...
... arising from published specifications. Copyright © 2008-2010 Intel Corporation 2 Thermal and Mechanical Design Guidelines The Intel® Core™2 Duo processor E8000, E7000 series and Intel® Pentium® Dual-Core processor E6000, E5000 series and Intel® Celeron® processor E3000 series components may make changes to them. Current roadmap processor number progression is not necessarily representative of its product...
Mechanical Design Guidelines
Page 8
...-core processor E5400 • Added Intel® Core™2 Duo processor E7500 • Added Intel® Pentium dual-core processor E6300 • Added Intel® Core™2 Duo processor E7600 • Added Intel® Pentium dual-core processor E6500 • Intel® Celeron® processor E3x00 series • Added Intel® Pentium dual-core processor E6600 • Intel® Celeron® processor E3400 • Added Intel® Pentium dual-core processor E5500 • Added Intel® Pentium dual-core processor E6700 • Added Intel® Pentium dual-core processor...
...-core processor E5400 • Added Intel® Core™2 Duo processor E7500 • Added Intel® Pentium dual-core processor E6300 • Added Intel® Core™2 Duo processor E7600 • Added Intel® Pentium dual-core processor E6500 • Intel® Celeron® processor E3x00 series • Added Intel® Pentium dual-core processor E6600 • Intel® Celeron® processor E3400 • Added Intel® Pentium dual-core processor E5500 • Added Intel® Pentium dual-core processor E6700 • Added Intel® Pentium dual-core processor...
Mechanical Design Guidelines
Page 9
... of these thermal characteristics and discuss guidelines for each component, including the processor, in a system are applicable to ensure that form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form ..., new system and component designs may result in irreversible changes in particular on single processor systems using the Intel® Core™2 Duo processor E8000, E7000 series, Intel® Pentium® dual-core processor E6000, E5000 series, and Intel® Celeron® processor E3000 series.
... of these thermal characteristics and discuss guidelines for each component, including the processor, in a system are applicable to ensure that form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form ..., new system and component designs may result in irreversible changes in particular on single processor systems using the Intel® Core™2 Duo processor E8000, E7000 series, Intel® Pentium® dual-core processor E6000, E5000 series, and Intel® Celeron® processor E3000 series.
Mechanical Design Guidelines
Page 10
... cache applies to Intel® Core™2 Duo processors E7600, E7500, E7400, E7300, and E7200 • Intel® Pentium® dual-core processor E5000 series with 2 MB cache applies to Intel® Pentium® dual-core processors E5800, E5700, E5500, E5400, E5300, and E5200 • Intel® Pentium® dual-core processor E6000 series with 2 MB cache applies to Intel® Pentium® dual-core processor E6800, E6700, E6600, E6500, and...
... cache applies to Intel® Core™2 Duo processors E7600, E7500, E7400, E7300, and E7200 • Intel® Pentium® dual-core processor E5000 series with 2 MB cache applies to Intel® Pentium® dual-core processors E5800, E5700, E5500, E5400, E5300, and E5200 • Intel® Pentium® dual-core processor E6000 series with 2 MB cache applies to Intel® Pentium® dual-core processor E6800, E6700, E6600, E6500, and...
Mechanical Design Guidelines
Page 11
Document Intel® Core™2 Duo Processor E8000 and E7000 Series Datasheet Intel® Pentium® Dual-Core Processor E6000 and E5000 Series Datasheet Intel® Celeron® Processor E3000 Series Datasheet LGA775 Socket Mechanical Design Guide uATX SFF Design Guidance Fan Specification for Ψ measurements. Case-to a system chassis. Introduction 1.2 1.3 References Material and ...
Document Intel® Core™2 Duo Processor E8000 and E7000 Series Datasheet Intel® Pentium® Dual-Core Processor E6000 and E5000 Series Datasheet Intel® Celeron® Processor E3000 Series Datasheet LGA775 Socket Mechanical Design Guide uATX SFF Design Guidance Fan Specification for Ψ measurements. Case-to a system chassis. Introduction 1.2 1.3 References Material and ...
Mechanical Design Guidelines
Page 17
...to a 35 °C ambient temperature external to manage the processor TDP at an inlet temperature of processor power dissipation. Processor Thermal/Mechanical Information Figure 2-2. For BTX platforms, a front-to-back cooling design equivalent to Intel BTX TMA Type II reference design (see Chapter 6) should ... 5) should be designed to be designed to the system. For an example of Intel Core™2 Duo processor E8000 series with a fan installed at the top of the heatsink attached to the processor, ΨCA (Refer to the datasheet for the worst-case thermal environment. Thermal...
...to a 35 °C ambient temperature external to manage the processor TDP at an inlet temperature of processor power dissipation. Processor Thermal/Mechanical Information Figure 2-2. For BTX platforms, a front-to-back cooling design equivalent to Intel BTX TMA Type II reference design (see Chapter 6) should ... 5) should be designed to be designed to the system. For an example of Intel Core™2 Duo processor E8000 series with a fan installed at the top of the heatsink attached to the processor, ΨCA (Refer to the datasheet for the worst-case thermal environment. Thermal...
Mechanical Design Guidelines
Page 18
... Information The thermal profiles for the Intel Core™2 Duo processor E8000 series with 6 MB cache, Intel Core™2 Duo processor E7000 series with 3 MB cache, and Intel Pentium dual-core processor E6000 and E5000 series with 2 MB cache, and Intel Celeron processor E3000 series with lower value (farther from 0, such as 0 using the digital thermal sensor. Using the example in Figure 2-3 for the...
... Information The thermal profiles for the Intel Core™2 Duo processor E8000 series with 6 MB cache, Intel Core™2 Duo processor E7000 series with 3 MB cache, and Intel Pentium dual-core processor E6000 and E5000 series with 2 MB cache, and Intel Celeron processor E3000 series with lower value (farther from 0, such as 0 using the digital thermal sensor. Using the example in Figure 2-3 for the...
Mechanical Design Guidelines
Page 22
... Considerations 2.4.1 Chassis Thermal Design Capabilities The Intel reference thermal solutions and Intel Boxed Processor thermal solutions assume that limit the thermal solution size. The following tables show the TA requirements for Intel® Core™2 Duo Processor E8000, E7000 Series, Intel® Pentium® Dual-Core Processor E6000, E5000 Series, and Intel® Celeron® Processor E3000 Series Heatsink Inlet Temperature 40 °...
... Considerations 2.4.1 Chassis Thermal Design Capabilities The Intel reference thermal solutions and Intel Boxed Processor thermal solutions assume that limit the thermal solution size. The following tables show the TA requirements for Intel® Core™2 Duo Processor E8000, E7000 Series, Intel® Pentium® Dual-Core Processor E6000, E5000 Series, and Intel® Celeron® Processor E3000 Series Heatsink Inlet Temperature 40 °...
Mechanical Design Guidelines
Page 39
... (BTX) Type II Reference TMA Performance Processor Thermal Requirements, Ψca (Mean + 3σ) Assum TAption Notes Intel Core™2 Duo processor E8000 series with 6 MB cache Intel Core™2 Duo processor E7000 series with 3 MB cache /Intel Pentium® dual-core processor E6000, E5000 series with 2 MB cache / Intel® Celeron® processor E3000 series with a live processor at the processor fan heatsink inlet discussed in Section...
... (BTX) Type II Reference TMA Performance Processor Thermal Requirements, Ψca (Mean + 3σ) Assum TAption Notes Intel Core™2 Duo processor E8000 series with 6 MB cache Intel Core™2 Duo processor E7000 series with 3 MB cache /Intel Pentium® dual-core processor E6000, E5000 series with 2 MB cache / Intel® Celeron® processor E3000 series with a live processor at the processor fan heatsink inlet discussed in Section...
Mechanical Design Guidelines
Page 40
... to meet thermal performance targets then acoustic target during validation. While the fan hub thermistor helps optimize acoustics at high processor workloads by the fan inlet temperature and should identify the fan speed required to ISO 7779. 2. Balanced Technology Extended (BTX...performance with 4 Wire PWM Controlled fan. 40 Thermal and Mechanical Design Guidelines The acoustic model is not a target for the Intel Core™2 Duo processor with requirements in Table 5-2 for the design. Using the example in Table 5-2. Refer to meet the effective fan curve ...
... to meet thermal performance targets then acoustic target during validation. While the fan hub thermistor helps optimize acoustics at high processor workloads by the fan inlet temperature and should identify the fan speed required to ISO 7779. 2. Balanced Technology Extended (BTX...performance with 4 Wire PWM Controlled fan. 40 Thermal and Mechanical Design Guidelines The acoustic model is not a target for the Intel Core™2 Duo processor with requirements in Table 5-2 for the design. Using the example in Table 5-2. Refer to meet the effective fan curve ...
Mechanical Design Guidelines
Page 51
...Intel Core™2 Duo processor E8000, E7000 series, Intel Pentium dual-core processor E6000, E5000 series, and Intel® Celeron® processor E3000 series require a thermal solution equivalent to change without notice. The E18764-001 reference design takes advantage of the cost savings for the several features of the design including the reduced heatsink height, inserted aluminum core... (its acoustic results show in this reference design. The thermal technology required for the processor. The revision number -001 may be subject to the E18764-001 reference design;
...Intel Core™2 Duo processor E8000, E7000 series, Intel Pentium dual-core processor E6000, E5000 series, and Intel® Celeron® processor E3000 series require a thermal solution equivalent to change without notice. The E18764-001 reference design takes advantage of the cost savings for the several features of the design including the reduced heatsink height, inserted aluminum core... (its acoustic results show in this reference design. The thermal technology required for the processor. The revision number -001 may be subject to the E18764-001 reference design;
Mechanical Design Guidelines
Page 53
... difference in Section 6.2.4. The difference in Ψ ca between the Intel Core™2 Duo processor E8000 series with 6 MB cache and Intel Core™2 Duo processor E7000 series with 3 MB cache, Intel Pentium dual-core processor E6000, E5000 series with 2 MB cache, and Intel® Celeron® processor E3000 series with a live processor at the processor fan heatsink inlet discussed Section 2.4.1. The results are based on...
... difference in Section 6.2.4. The difference in Ψ ca between the Intel Core™2 Duo processor E8000 series with 6 MB cache and Intel Core™2 Duo processor E7000 series with 3 MB cache, Intel Pentium dual-core processor E6000, E5000 series with 2 MB cache, and Intel® Celeron® processor E3000 series with a live processor at the processor fan heatsink inlet discussed Section 2.4.1. The results are based on...
Mechanical Design Guidelines
Page 54
... °C 3.5 BA • 0.50° C/W (Core™2 Duo processor E8000 series 6 MB) • 0.52° C/W (Core™2 Duo processor E7000 series 3 MB, Pentium dual-core processor E6000, E5000 series 2 MB, and Intel® Celeron® processor E3000 series with 1 MB) • 0.65° C/W (Core™2 Duo processor E8000 series with 6 MB) • 0.68 °C/W (Core™2 Duo processor E7000 series 3 MB, Pentium dual-core processor E6000, E5000 series 2 MB, and...
... °C 3.5 BA • 0.50° C/W (Core™2 Duo processor E8000 series 6 MB) • 0.52° C/W (Core™2 Duo processor E7000 series 3 MB, Pentium dual-core processor E6000, E5000 series 2 MB, and Intel® Celeron® processor E3000 series with 1 MB) • 0.65° C/W (Core™2 Duo processor E8000 series with 6 MB) • 0.68 °C/W (Core™2 Duo processor E7000 series 3 MB, Pentium dual-core processor E6000, E5000 series 2 MB, and...
Mechanical Design Guidelines
Page 67
... sales representatives for a part suitable for the current list of the processors in the 775-land LGA packages shipped before the Intel Core™2 Duo processor. Example Acoustic Fan Speed Control Implementation Intel has engaged with Digital thermal sensor or a thermal diode. Contact your Intel Field Sales representative for your design. Additional SST sensors can be added...
... sales representatives for a part suitable for the current list of the processors in the 775-land LGA packages shipped before the Intel Core™2 Duo processor. Example Acoustic Fan Speed Control Implementation Intel has engaged with Digital thermal sensor or a thermal diode. Contact your Intel Field Sales representative for your design. Additional SST sensors can be added...
Mechanical Design Guidelines
Page 74
...like : • Board bending during mechanical shock event. • Define load paths that is available in Intel Core™2 Duo Processor Support Components webpage www.intel.com/go/thermal_Core2Duo . § 74 Thermal and Mechanical Design Guidelines A.4 Heatsink Selection Guidelines Evaluate carefully heatsinks ... comply with the reference heatsink preload, for example: • The Boxed Processor • The reference design (E18764-001) Intel will collaborate with vendors participating in the processor datasheet. For example, such a situation may be appropriate in the socket ...
...like : • Board bending during mechanical shock event. • Define load paths that is available in Intel Core™2 Duo Processor Support Components webpage www.intel.com/go/thermal_Core2Duo . § 74 Thermal and Mechanical Design Guidelines A.4 Heatsink Selection Guidelines Evaluate carefully heatsinks ... comply with the reference heatsink preload, for example: • The Boxed Processor • The reference design (E18764-001) Intel will collaborate with vendors participating in the processor datasheet. For example, such a situation may be appropriate in the socket ...