Intel ATX12V manual Mechanical, Environmental, Electromagnetic Compatibility, Reliability, Safety

Page 4

ATX12V Power Supply Design Guide

Version 2.0

3.4.3.	No-load Operation	26
3.4.4.	Over-current Protection	26
3.4.5.	Over-temperature Protection	27
3.4.6.	Output Bypass	27

4. Mechanical		28
4.1.	Labeling / Marking	28
4.2.	Physical Dimensions	28
4.3.	Airflow / Fan	31
4.4.	AC Connector	32
4.5.	DC Connectors	32
	4.5.1. ATX Main Power Connector	34
	4.5.2. +12 V Power Connector	35
	4.5.3. Peripheral Connector(s)	35
	4.5.4. Serial ATA Power Connector	36
	4.5.5. Floppy Drive Connector	36

5. Environmental		37
5.1.	Temperature	37
5.2.	Thermal Shock (Shipping)	37
5.3.	Humidity	37
5.4.	Altitude	37
5.5.	Mechanical Shock	38
5.6.	Random Vibration	38
5.7.	Acoustics	38

6. Electromagnetic Compatibility		39
6.1.	Emissions	39
6.2. Immunity		39
6.3. Input Line Current Harmonic Content and Line Flicker		40
6.4.	Magnetic Leakage Fields	40

7.	Reliability		41
	7.1.	Component De-rating	41
8.	Safety		42
	8.1.	North America	42
	8.2.	International	43
	8.3.	Proscribed Materials	43

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Contents ATX12V VersionImportant Information and Disclaimers Contents Safety MechanicalEnvironmental Electromagnetic CompatibilityFigures TablesIntroduction ScopeIncreased +12 VDC output capability Minimum EfficiencySeparate current limit for 12V2 on the 2x2 connector Main Power ConnectorTerminology Document Title Applicable DocumentsDescription Electrical AC InputInput Over-current Protection Inrush Current LimitingRegulatory Input Under-voltageOther Certifications and/or Declarations DC Output Catastrophic Failure ProtectionDC Voltage Regulation DC Output Voltage RegulationTypical Power Distribution Remote SensingPower 12V power wattsMin Max Current Output AmpsTypical Power Distribution for a 300 W ATX12V Configuration Cross Loading Graph for 300W ConfigurationTypical Power Distribution for a 350 W ATX12V Configuration Cross Loading Graph for 350W ConfigurationTypical Power Distribution for a 400 W ATX12V Configuration Min Max Peak Current Output AmpsPower Limit / Hazardous Energy Levels EfficiencyGeneral Minimum Efficiency Vs LoadLoading Table for Efficiency Measurements Energy Star Input Power Consumption Other Low Power System RequirementsOutput Ripple/Noise Energy StarDC Output Noise/Ripple Max. Ripple & Noise MVppOutput Transient Response Capacitive LoadDC Output Transient Step Sizes Output Capacitive Loads10. +5 VDC / +3.3 VDC Power Sequencing Timing / Housekeeping / ControlClosed-loop Stability Voltage Hold-up TimePwrok Pwrok Signal CharacteristicsPSON# PSON# Signal Characteristics 3. +5 VSBPower-on Time Reset after Shutdown8. +5 VSB at AC Power-down RisetimeOutput Protection Over-voltage ProtectionShort-circuit Protection No-load OperationOver-temperature Protection Output BypassMechanical Physical DimensionsLabeling / Marking Second optional fan may go in this location Second optional Airflow / Fan AC Connector DC Connectors+5V +33V 12V+12V1 +5V ATX Main Power Connector Pin Signal Color2. +12 V Power Connector Peripheral ConnectorsConnector Molex 39-01-2040 or equivalent Pin Signal AWG WireSerial ATA Power Connector Floppy Drive ConnectorWire Signal Connector AMP 171822-4 or equivalent Pin Signal AWG WireTemperature EnvironmentalThermal Shock Shipping HumidityRandom Vibration Mechanical ShockAcoustics Emissions Electromagnetic CompatibilityImmunity Magnetic Leakage Fields Input Line Current Harmonic Content and Line FlickerHarmonic Limits, Class D Equipment Reliability Component De-ratingSafety North AmericaInternational Proscribed Materials

ATX12V Power Supply Design Guide

4. Mechanical

5. Environmental

6. Electromagnetic Compatibility

Reliability

Safety