User manual INTEL PENTIUM DUAL-CORE PROCESSOR E6000 THERMAL AND MECHANICAL DESIGN GUIDELINES

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[. . . ] Intel® CoreTM2 Duo Processor E8000 and E7000 Series, Intel® Pentium® Dual-Core Processor E6000 and E5000 Series, and Intel® Celeron® Processor E3000 Series Thermal and Mechanical Design Guidelines August 2010 Document Number: 318734-016 THIS DOCUMENT AND RELATED MATERIALS AND INFORMATION ARE PROVIDED "AS IS" WITH NO WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS, OR ANY WARRANTY OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATION, OR SAMPLE. INTEL ASSUMES NO RESPONSIBILITY FOR ANY ERRORS CONTAINED IN THIS DOCUMENT AND HAS NO LIABILITIES OR OBLIGATIONS FOR ANY DAMAGES ARISING FROM OR IN CONNECTION WITH THE USE OF THIS DOCUMENT. Intel products are not intended for use in medical, life saving, life sustaining, critical control or safety systems, or in nuclear facility applications. Intel Corporation may have patents or pending patent applications, trademarks, copyrights, or other intellectual property rights that relate to the presented subject matter. [. . . ] A processor enabled for TM2 includes two operating points, each consisting of a specific operating frequency and voltage. The first operating point represents the normal operating condition for the processor. The second operating point consists of both a lower operating frequency and voltage. When the TCC is activated, the processor automatically transitions to the new frequency. During the frequency transition, the processor is unable to service any bus requests, all bus traffic is blocked. Edge-triggered interrupts will be latched and kept pending until the processor resumes operation at the new frequency. Once the new operating frequency is engaged, the processor will transition to the new core operating voltage by issuing a new VID code to the voltage regulator. The voltage regulator must support VID transitions in order to support TM2. During the voltage change, it will be necessary to transition through multiple VID codes to reach the target operating voltage. The processor continues to execute instructions during the voltage transition. Operation at the lower voltage reduces the power consumption of the processor, providing a temperature reduction. Thermal and Mechanical Design Guidelines 33 Thermal Management Logic and Thermal Monitor Feature Once the processor has sufficiently cooled, and a minimum activation time has expired, the operating frequency and voltage transition back to the normal system operating point. Transition of the VID code will occur first, in order to insure proper operation once the processor reaches its normal operating frequency. Thermal Monitor 2 Frequency and Voltage Ordering TTM2 Temperature PROCHOT# fMAX fTM2 VID VIDTM2 Time Refer to the datasheet for further information on TM2. Frequency VID 4. 2. 4 Operation and Configuration Thermal Monitor must be enabled to ensure proper processor operation. The Thermal Control Circuit feature can be configured and monitored in a number of ways. OEMs are required to enable the Thermal Control Circuit while using various registers and outputs to monitor the processor thermal status. The Thermal Control Circuit is enabled by the BIOS setting a bit in an MSR (model specific register). Enabling the Thermal Control Circuit allows the processor to attempt to maintain a safe operating temperature without the need for special software drivers or interrupt handling routines. When the Thermal Control Circuit has been enabled, processor power consumption will be reduced after the thermal sensor detects a high temperature (that is, PROCHOT# assertion). The Thermal Control Circuit and PROCHOT# transitions to inactive once the temperature has been reduced below the thermal trip point, although a small time-based hysteresis has been included to prevent multiple PROCHOT# transitions around the trip point. External hardware can monitor PROCHOT# and generate an interrupt whenever there is a transition from active-to-inactive or inactive-to-active. PROCHOT# can also be configured to generate an internal interrupt which would initiate an OEM supplied interrupt service routine. 34 Thermal and Mechanical Design Guidelines Thermal Management Logic and Thermal Monitor Feature Regardless of the configuration selected, PROCHOT# will always indicate the thermal status of the processor. The power reduction mechanism of thermal monitor can also be activated manually using an "on-demand" mode. [. . . ] 2 0. 2 [ . 079 . 007 ] 39. 6 [ 1. 559 ] QTY E D PERMANENTLY MARK PART NUMBER AND REVISION LEVEL APPROXIMATELY WHERE SHOWN XXXXXX-XXX REV XX D D B SQ 53. 5 0. 2 [ 2. 106 . 007 ] 0. 5 [. 019] AB C C 5 B SEE DETAIL C TOP ITEM NO C85609-001 PART NUMBER CLIP, STEEL, STAMPED DESCRIPTION B DEPARTMENT PARTS LIST UNLESS OTHERWISE SPECIFIED INTERPRET DIMENSIONS AND TOLERANCES IN ACCORDANCE WITH ASME Y14. 5M-1994 DIMENSIONS ARE IN MILLIMETERS ALL UNTOLERANCED LINEAR DIMENSIONS ± 0. 1 ANGLES ± 0. 5 R CORP. TMD TITLE 2200 MISSION COLLEGE BLVD. BOX 58119 SANTA CLARA, CA 95052-8119 7 SECTION A-A A 8 SEE DETAIL B 3. 52 0. 2 [ . 139 . 007 ] THIRD ANGLE PROJECTION SIZE RCFH4 HS CLIP, 35mm core DRAWING NUMBER REV A A1 SCALE: NONE C85609 DO NOT SCALE DRAWING SHEET B 1 OF 2 7 6 5 4 3 2 1 118 Thermal and Mechanical Design Guidelines Mechanical Drawings Figure 7-49. NO C85609 SHT. 2 REV 0 H 135 G 7. 31 [ . 288 ] 2X R0. 5 [ . 020 ] G 1. 65 [ . 065 ] F 5. 3 [ . 209 ] R0. 3 TYP [ . 012 ] 1. 06 [ . 042 ] 45 X 0. 45 0. 05 [ . 018 . 001 ] 8 F 2X R3. 6 [ . 142 ] SECTION D-D SCALE 8 AB AB E 7. 35 [ . 289 ] 0. 1 [. 003] 0. 2 [. 007] BOUNDARY 7 E D DETAIL A SCALE 10 TYPICAL 4 PLACES W 0. 4 [. 015] 0. 5 [. 019] X 4X AB AB D C THIS POINT CORRESPONDS TO THE 39. 6 DIMENSION ON SHEET 1 ZONE A7 45 X 0. 25 0. 05 [ . 010 . 001 ] 8 DETAIL C SCALE 10 TYP 4 PLACES X R1. 4 [ . 055 ] 133. 59 C B DETAIL B SCALE 20 B W A 8 7 6 R3. 1 [ . 122 ] 2. 97 [ . 117 ] DEPARTMENT R CORP. TMD 2200 MISSION COLLEGE BLVD. BOX 58119 SANTA CLARA, CA 95052-8119 SIZE DRAWING NUMBER REV A A1 SCALE: C85609 1 DO NOT SCALE DRAWING SHEET 0 2 OF 2 5 4 3 2 1 Thermal and Mechanical Design Guidelines 119 Mechanical Drawings Figure 7-50. [. . . ]

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