Mechanical Design Guidelines
Page 2
... is not necessarily representative of the information provided. Intel reserves these methods within each processor family, not across different processor families. Intel provides this document, or other intellectual property rights. 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 cause the product to...
... is not necessarily representative of the information provided. Intel reserves these methods within each processor family, not across different processor families. Intel provides this document, or other intellectual property rights. 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 cause the product to...
Mechanical Design Guidelines
Page 8
... 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 E5700 • Added Intel® Pentium dual-core processor...
... 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 E5700 • Added Intel® Pentium dual-core processor...
Mechanical Design Guidelines
Page 9
... the chassis characteristics, 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. Within this temperature range, a component is expected to provide adequate cooling for ATX/uATX...
... the chassis characteristics, 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. Within this temperature range, a component is expected to provide adequate cooling for ATX/uATX...
Mechanical Design Guidelines
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...; Intel® Core™2 Duo processor E7000 series with 3 MB 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...
...; Intel® Core™2 Duo processor E7000 series with 3 MB 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...
Mechanical Design Guidelines
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... specified in the following documents may be beneficial when reading this document. Case-to TC. 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...
... specified in the following documents may be beneficial when reading this document. Case-to TC. 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...
Mechanical Design Guidelines
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.... Note: The TCONTROL value for the processor is driven by the digital thermal sensor. Processor Thermal/Mechanical 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...
.... Note: The TCONTROL value for the processor is driven by the digital thermal sensor. Processor Thermal/Mechanical 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...
Mechanical Design Guidelines
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...Intel® Boxed Processor Thermal Solutions Topic Boxed Processor 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 °C NOTE: 1. Table 2-2. Heatsink Inlet Temperature of Intel...Advantaged Chassis (TAC) Design Guide for the reference solutions and Intel Boxed Processor thermal solutions. Table 2-1. The TAC 2.0 Design Guide defines a new processor cooling solution inlet temperature target of system airflow can be ...
...Intel® Boxed Processor Thermal Solutions Topic Boxed Processor 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 °C NOTE: 1. Table 2-2. Heatsink Inlet Temperature of Intel...Advantaged Chassis (TAC) Design Guide for the reference solutions and Intel Boxed Processor thermal solutions. Table 2-1. The TAC 2.0 Design Guide defines a new processor cooling solution inlet temperature target of system airflow can be ...
Mechanical Design Guidelines
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... 3.3. Performance targets (Ψ ca) as an integrated assembly. The difference in Ψ ca between the 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 a live processor at the processor fan heatsink inlet discussed in a temperature rise, TR, of 0.5 °C. and Chapter 4). Thermal and Mechanical...
... 3.3. Performance targets (Ψ ca) as an integrated assembly. The difference in Ψ ca between the 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 a live processor at the processor fan heatsink inlet discussed in a temperature rise, TR, of 0.5 °C. and Chapter 4). Thermal and Mechanical...
Mechanical Design Guidelines
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... reference design; The thermal technology required for an exploded view of the heatsink. Thermal and Mechanical Design Guidelines 51 The 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 show the acoustic advantage (its acoustic results show in this reference design...
... reference design; The thermal technology required for an exploded view of the heatsink. Thermal and Mechanical Design Guidelines 51 The 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 show the acoustic advantage (its acoustic results show in this reference design...
Mechanical Design Guidelines
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...;) 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 a live processor at the processor fan heatsink inlet discussed Section 2.4.1. 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...
...;) 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 a live processor at the processor fan heatsink inlet discussed Section 2.4.1. 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...
Mechanical Design Guidelines
Page 54
...; 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 Intel® Celeron® processor E3000 series...
...; 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 Intel® Celeron® processor E3000 series...