Design Guidelines
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Intel® Pentium® Dual Core Processor E2000 Series - Intel® Celeron® Dual-Core Processor E1000 Series June 2009 Document Number: 317804-011 Intel® Core™2 Duo Processor E6000 and E4000 Series - Intel® Core™2 Duo Processor, Intel® Pentium® Dual Core Processor, and Intel® Celeron® Dual-Core Processor Thermal and Mechanical Design Guidelines Supporting the: -
Intel® Pentium® Dual Core Processor E2000 Series - Intel® Celeron® Dual-Core Processor E1000 Series June 2009 Document Number: 317804-011 Intel® Core™2 Duo Processor E6000 and E4000 Series - Intel® Core™2 Duo Processor, Intel® Pentium® Dual Core Processor, and Intel® Celeron® Dual-Core Processor Thermal and Mechanical Design Guidelines Supporting the: -
Design Guidelines
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... Added Intel® Celeron® Dual-Core processor E1000 series Updated reference design Intel P/N, supplier P/N and heatsink drawing Updated Intel® Boxed Processor Thermal Solutions inlet ambient temperature assumption Added Intel® Pentium® Dual Core processor E2220 specifications Added Intel® Core™2 Duo Desktop processor E4700 specifications Added Intel® Celeron® Dual-Core processor E1400 Added Intel® Celeron® Dual-Core processor E1500 Added Intel® Celeron® Dual-Core...
... Added Intel® Celeron® Dual-Core processor E1000 series Updated reference design Intel P/N, supplier P/N and heatsink drawing Updated Intel® Boxed Processor Thermal Solutions inlet ambient temperature assumption Added Intel® Pentium® Dual Core processor E2220 specifications Added Intel® Core™2 Duo Desktop processor E4700 specifications Added Intel® Celeron® Dual-Core processor E1400 Added Intel® Celeron® Dual-Core processor E1500 Added Intel® Celeron® Dual-Core...
Design Guidelines
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...form factor. Thermal and Mechanical Design Guidelines 11 Temperatures exceeding the maximum operating limit of a component may be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution...The processor temperature depends in particular on single processor systems using the Intel® Core™2 Duo processor E6000 and E4000 series, Intel® Pentium® Dual Core processor E2000 series, and Intel® Celeron® DualCore processor E1000 series. Operation outside the functional temperature ...
...form factor. Thermal and Mechanical Design Guidelines 11 Temperatures exceeding the maximum operating limit of a component may be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution...The processor temperature depends in particular on single processor systems using the Intel® Core™2 Duo processor E6000 and E4000 series, Intel® Pentium® Dual Core processor E2000 series, and Intel® Celeron® DualCore processor E1000 series. Operation outside the functional temperature ...
Design Guidelines
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... this document discusses package thermal mechanical requirements to design a thermal solution for the processor in the context of 73.3 °C applies to the Intel® Celeron ® dual-core processor E1200, E1400, E1500, and E1600 In this document when a reference is made to "the Datasheet", the reader should refer to the datasheet for the processor...
... this document discusses package thermal mechanical requirements to design a thermal solution for the processor in the context of 73.3 °C applies to the Intel® Celeron ® dual-core processor E1200, E1400, E1500, and E1600 In this document when a reference is made to "the Datasheet", the reader should refer to the datasheet for the processor...
Design Guidelines
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... Power. Document Intel® Core™2 Extreme Processor X6800 and Intel® Core™2 Duo Desktop Processor E6000 and E4000 Series Datasheet Intel® Pentium® Dual-Core Desktop Processor E2000 Series Datasheet Intel® Celeron ® Dual-Core Processor E1000 Series Datasheet LGA775 Socket Mechanical Design Guide...http://www.formfactors.org/ http://www.formfactors.org/ http://www.formfactors.org/ http://www.formfactors.org/ http://www.intel.com/go/chassis/ 1.3 Definition of the processor, measured at a location corresponding to a system chassis. Note: Heat ...
... Power. Document Intel® Core™2 Extreme Processor X6800 and Intel® Core™2 Duo Desktop Processor E6000 and E4000 Series Datasheet Intel® Pentium® Dual-Core Desktop Processor E2000 Series Datasheet Intel® Celeron ® Dual-Core Processor E1000 Series Datasheet LGA775 Socket Mechanical Design Guide...http://www.formfactors.org/ http://www.formfactors.org/ http://www.formfactors.org/ http://www.formfactors.org/ http://www.intel.com/go/chassis/ 1.3 Definition of the processor, measured at a location corresponding to a system chassis. Note: Heat ...
Design Guidelines
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...processor. The following tables show the TA requirements for Intel® Core™2 Duo Processor E6000 and E4000 Series, Intel® Pentium® Dual Core Processor E2000 Series, and Intel® Celeron® Dual- Boxed Processor thermal solutions for ATX assume the ... Information 2.4 System Thermal Solution 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. Core Processor E1000 Series Heatsink Inlet Temperature 40 °C NOTE: 1. Table...
...processor. The following tables show the TA requirements for Intel® Core™2 Duo Processor E6000 and E4000 Series, Intel® Pentium® Dual Core Processor E2000 Series, and Intel® Celeron® Dual- Boxed Processor thermal solutions for ATX assume the ... Information 2.4 System Thermal Solution 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. Core Processor E1000 Series Heatsink Inlet Temperature 40 °C NOTE: 1. Table...
Design Guidelines
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... the appropriate thermal performance with 2 MB cache at Tc-max of 73.3 °C, Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C, and Intel® Celeron® Dual-Core Processor E1000 Series at Tc-max of 73.3° C. BTX Type II reference TMA ... of 73.3 °C Intel® Pentium® Dual Core processor E2000 series at Tc-max of 61.4 °C Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C Intel® Celeron® Dual-Core Processor E1000 series at Tc-max of 61.4 °C Intel® Core™2 Duo processor with...
... the appropriate thermal performance with 2 MB cache at Tc-max of 73.3 °C, Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C, and Intel® Celeron® Dual-Core Processor E1000 Series at Tc-max of 73.3° C. BTX Type II reference TMA ... of 73.3 °C Intel® Pentium® Dual Core processor E2000 series at Tc-max of 61.4 °C Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C Intel® Celeron® Dual-Core Processor E1000 series at Tc-max of 61.4 °C Intel® Core™2 Duo processor with...
Design Guidelines
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...E18764-001 provided in the Table 6-4). The E18764-001 reference design takes advantage of the design including the reduced heatsink height, inserted aluminum core, and the new TIM material (Dow Corning TC-1996 grease, see uATX SFF Guidance for reference only. The revision number -001 ...2 MB cache at Tc-max of 72.0 °C, Intel® Core™2 Duo processor with 2 MB cache at Tc-max of 73.3 °C, Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C, and Intel® Celeron® Dual-Core processor E1000 series at Tc-max of this document is for...
...E18764-001 provided in the Table 6-4). The E18764-001 reference design takes advantage of the design including the reduced heatsink height, inserted aluminum core, and the new TIM material (Dow Corning TC-1996 grease, see uATX SFF Guidance for reference only. The revision number -001 ...2 MB cache at Tc-max of 72.0 °C, Intel® Core™2 Duo processor with 2 MB cache at Tc-max of 73.3 °C, Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C, and Intel® Celeron® Dual-Core processor E1000 series at Tc-max of this document is for...
Design Guidelines
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... MB cache at Tc-max of 60.1 °C Intel® Core™2 Duo processor with 2 MB cache at Tc-max of 73.3 °C Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C Intel® Celeron® Dual-Core processor E1000 series at Tc-max of 73.3 °... targets ( ca) as measured with 2 MB cache at Tc-max of 73.3 °C, Intel® Pentium® dual-core processor E2000 series at Tc-max of 73.3 °C, and Intel® Celeron® dual-core processor E1000 series at the processor fan heatsink inlet discussed Section 2.4.1. The difference in ca between ...
... MB cache at Tc-max of 60.1 °C Intel® Core™2 Duo processor with 2 MB cache at Tc-max of 73.3 °C Intel® Pentium® Dual Core processor E2000 series at Tc-max of 73.3 °C Intel® Celeron® Dual-Core processor E1000 series at Tc-max of 73.3 °... targets ( ca) as measured with 2 MB cache at Tc-max of 73.3 °C, Intel® Pentium® dual-core processor E2000 series at Tc-max of 73.3 °C, and Intel® Celeron® dual-core processor E1000 series at the processor fan heatsink inlet discussed Section 2.4.1. The difference in ca between ...