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Intel 315889-002 manual Control Signals

Models: 315889-002

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Control Signals

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Intel 315889-002 manual Control Signals

Contents

Voltage Regulator Module VRM and Enterprise Voltage Regulator-DownEVRDDesign Guidelines April315889-002 Contents ApplicationsFigures TablesHighest SKU Processors - Summary Revision History Rev #Description Rev. DateProjects Covered RevisionProject Document State Page 1Applications 1.1Introduction and TerminologyTable 1-2.Guideline Categories 2Output Voltage Requirements 2.1Voltage and Current - REQUIREDSustained Current A Time Duration sOutput Voltage Requirements 2.2Load Line Definitions - REQUIREDTable 2-2.Icc Guidelines Table 2-3.VID Select, LL1, LL0 Codes Sheet 1 of 2.3Voltage Tolerance - REQUIRED Table 2-3.VID Select, LL1, LL0 Codes Sheet 2 of2.4Processor VCC Overshoot - REQUIRED 2.5Impedance vs. Frequency - EXPECTEDZtarget = Z LL VR BW500 kHz 700 kHz2.7Processor Power Sequencing - REQUIRED 2.6Stability - REQUIREDVBOOT=1.1V PWM Vcc5V/12V VTT VTT PWRGD OUTEN VID SELECT Tg2.8Dynamic Voltage Identification D-VID REQUIRED Figure 2-5.Processor Transition States 2.9Overshoot at Turn-Onor Turn-Off- REQUIRED 2.10Output Filter Capacitance - REQUIREDFigure Figure Figure 6 layers, 2 power, 2 ground, 2 signal, 1 oz Cu Motherboard Socket & Package2.11Shut-DownResponse - REQUIRED 3.2Voltage Identification VID 6 0 - REQUIRED 3Control Signals3.1Output Enable OUTEN - REQUIRED Control Signals 315889-0023.3Differential Remote Sense VO SEN+ REQUIRED Socket Table 3-6.VID Bit Mapping 3.4Load Line Select LL0, LL1, VID Select REQUIREDTable 3-5.LL0, LL1, VID Select Specifications Control Signals 4Input Voltage and Current 4.1Input Voltages - EXPECTED4.2Load Transient Effects on Input Current EXPECTEDInput Voltage and Current 5.2Over-CurrentProtection OCP - EXPECTED 5Processor Voltage Output Protection5.1Over-VoltageProtection OVP - EXPECTED Processor Voltage Output Protection 6.2Voltage Regulator Hot VR hot# - PROPOSED 6Output Indicators6.1Voltage Regulator Ready VR Ready - REQUIRED 6.3Load Indicator Output Load Current PROPOSED 6.4VRM Present VRM pres# - EXPECTED6.5VR Identification VR ID# - EXPECTED Table 6-3.VRM pres# SpecificationsOutput Indicators VRM Pres#Output Indicators 7.1VRM Connector - EXPECTED 7.2VRM Tyco/Elcon Connector Keying7.2.1Connector Keying 7.2.2Connector Pin 1 OrientationTable 7-2.VRM 11.0 Connector Pin Descriptions VRM - Mechanical GuidelinesName Type7.4Mechanical Dimensions - PROPOSED 7.4.1Gold Finger SpecificationFigure 7-1.VRM 11.0 Module and Connector PCB Footprint8.1Operating Temperature - PROPOSED 8.2VRM Board Temperature - REQUIRED8.3Non-OperatingTemperature - PROPOSED 8Environmental Conditions8.10Safety - PROPOSED 8.5Altitude - PROPOSED8.6Electrostatic Discharge - PROPOSED 8.7Shock and Vibration - PROPOSED9Manufacturing Considerations 9.1Lead Free Pb FreeManufacturing Considerations A.1 Introduction - PROPOSED AZf Constant Output Impedance DesignFigure A-2.Zf Network Plot with 1.25 mΩ Load Line Page A.2 Voltage Transient Tool VTT Zf Theory Z f = FFT V t FFT I tA.3 VTT Zf Measurement Method A.4 ResultsPage 10uF 22uF A.5 Output Decoupling Design Procedure