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Intel EPS1U manual Mechanical Overview, High Power Card Edge Form Factor, Enclosure Drawing

Models: EPS1U

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4Mechanical Overview

SSI

EPS1U Power Supply Design Guide, V1.1

4Mechanical Overview

There are two physical sizes of the power supply enclosure intended to accommodate power levels of 125W, 250W and 350W. There are two output connector designs. A card edge solution to provide ease of installation and removal and a wire harness to provide a traditional cabled solution. The chassis for the entry 1U power supply is designed for use in 1U rack mounted systems.

4.1High Power Card Edge Form Factor

STATUS

Large Power Form

Factor

The high power edge card form factor is intended for use at 250W and 350W power levels. Refer to Figure 1 for details. The supply will provide its output power via a card edge on the interior face of the power supply to provide users and manufacturers easy installation and removal of the power supply into the system.

53.0 +/- 0.2

106.0 +/- 0.2

Bi-Color LED

(PWR/Fail) IEC Connector

Center Line

.0 +0.2/-0.5

Fan

AC I/P

Fan

Exterior Face View

16.4+/- 0.2

Top View

IEC Connector

IEC Connector

Center Line

8.5 +/-0.3

300.0+/-0.2

Side View

All dimensions are in millimeters.

80.92+0/-0.05

12.54+/-0.3

5.0+/-0.3

62	32
1	31

Interior Face View

Figure 1: Enclosure Drawing

Image 7

Intel EPS1U manual Mechanical Overview, High Power Card Edge Form Factor, Enclosure Drawing

Contents

EPS1U Power Supply Design Guide EPS1U Power Supply Design GuideA Server System Infrastructure SSI Specification For 1U Rack Chassis Power SuppliesDisclaimer EPS1U Power Supply Design GuidePurpose ContentsDC Output Specification Control and Indicator FunctionsTables FiguresEPS1U Power Supply Design Guide 2 Conceptual Overview 1 PurposeTable 1 Definitions, Terms, and Acronyms listed alphabetically 3 Definitions/Terms/AcronymsEPS1U Power Supply Design Guide 4 Mechanical Overview 4.1 High Power Card Edge Form FactorFigure 1 Enclosure Drawing AC I/P 4.2 Alternate EnclosureFigure 2 Alternate Enclosure Drawing EPS1U Power Supply Design Guide4.3 Airflow Requirements 4.4 Temperature RequirementsTable 2 Thermal Requirements 5.3 Input Under Voltage 5.1 AC Inlet Connector5.2 AC Input Voltage Specification 5 AC Input Requirements5.7 AC Inrush 5.4 Efficiency5.5 AC Line Dropout 5.6 AC Line FuseTable 5 AC Line Surge Transient Performance 5.8 AC Line Transient Specification5.9 AC Line Fast Transient Specification Table 4 AC Line Sag Transient Performance6.1 Connector 6 DC Output SpecificationTable 6 Edge Finger Pinout Figure 3 Edge Finger Layout 6.2 Grounding 6.4 Output Power/Currents6.3 Remote Sense Table 8 250 W Load Ratings Table 7 125 W Load RatingsTable 9 350 W Load Ratings 6.4.1 Standby OutputsTable 11 Optional +5V Regulation Limits 6.5 Voltage Regulation6.6 Dynamic Loading Table 10 Voltage Regulation LimitsTable 14 Ripple and Noise 6.7 Capacitive Loading6.8 Ripple / Noise Table 13 Capacitive Loading ConditionsTable 15 Output Voltage Timing 6.9 Timing RequirementsFigure 4 Output Voltage Timing Tpwokholdup Table 16 Turn On/Off TimingEPS1U Power Supply Design Guide TvoutholdupTvoutholdup Tpwoklow Tpwokoff Tsbondelay Figure 5 Turn On/Off Timing Signal Power SupplyEPS1U Power Supply Design Guide TACondelay TsbondelayTable 17 Over Current Protection 7 Protection Circuits7.1 Current Limit 7.2 240VA Protection7.3 Over Voltage Protection 7.4 Over Temperature ProtectionTable 19 Over Voltage Limits 8.1 PSON# 8 Control and Indicator FunctionsTable 20 PSON# Signal Characteristic Figure 6 PSON# Signal CharacteristicsTable 21 PWOK Signal Characteristics 8.2 PWOK Power OK8.3 ACWarning Table 22 ACWarning Signal Characteristics8.4.2.1 Product Info Area 8.4 Field Replacement Unit FRU Signals8.4.1 FRU Data 8.4.2 FRU Data FormatField Name PS Info 8.4.2.2 MultiRecord AreaTable 25 FRU Device MultiRecord Area EPS1U Power Supply Design GuideTable 26 LED Indicators 8.5 LED Indicator9 MTBF 10 Agency Requirements