Intel ATX12V manual Output Ripple/Noise, Energy Star Input Power Consumption

Page 19

ATX12V Power Supply Design Guide

Version 2.0

3.2.5.2. Energy Star*

The “Energy Star” efficiency requirements of the power supply depend on the intended system configuration. In the low-power / sleep state (S1 or S3) the system should consume power in accordance with the values listed inTable 9.

Table 9. Energy Star Input Power Consumption

Maximum Continuous Power Rating of Power Supply

<200 W

>200 W < 300 W

>300 W < 350 W

>350 W < 400 W

>400 W

RMS Watts from the AC line in sleep/low-power mode

<15 W

<20 W

<25 W

<30 W

10% of the maximum continuous output rating

Note: To help meet the “Energy Star” system requirements, it is recommended that the power supply have > 50% efficiency in standby mode.

3.2.5.3. Other Low Power System Requirements

For power supplies designed for low standby power, the following provides some general guidance. Requirements will vary with geographic region and target end user market.

To help meet the Blue Angel*, RAL-UZ 78, US Presidential executive order 13221, future EPA requirements, and other low Power system requirements the +5 VSB standby supply should be as efficient as possible. Standby efficiency is measured with the main outputs off (PS_ON# high state). Standby efficiency should be greater than 50% with a minimum loading of 100mA.

3.2.6. Output Ripple/Noise

The output ripple/noise requirements listed in Table 10 should be met throughout the load ranges specified in Section 3.2.3 and under all input voltage conditions as specified in Section 3.1.

Ripple and noise are defined as periodic or random signals over a frequency band of 10 Hz to 20 MHz. Measurements shall be made with an oscilloscope with 20 MHz bandwidth. Outputs should be bypassed at the connector with a 0.1 µF ceramic disk capacitor and a 10 µF electrolytic capacitor to simulate system loading. See Figure 5.

19

Image 19

Contents Version ATX12VImportant Information and Disclaimers Contents Electromagnetic Compatibility SafetyMechanical EnvironmentalTables FiguresMinimum Efficiency IntroductionScope Increased +12 VDC output capabilitySeparate current limit for 12V2 on the 2x2 connector Main Power ConnectorTerminology Document Title Applicable DocumentsDescription Inrush Current Limiting ElectricalAC Input Input Over-current ProtectionRegulatory Input Under-voltageOther Certifications and/or Declarations DC Output Voltage Regulation DC OutputCatastrophic Failure Protection DC Voltage RegulationRemote Sensing Typical Power DistributionCurrent Output Amps Power12V power watts Min MaxCross Loading Graph for 300W Configuration Typical Power Distribution for a 300 W ATX12V ConfigurationCross Loading Graph for 350W Configuration Typical Power Distribution for a 350 W ATX12V ConfigurationMin Max Peak Current Output Amps Typical Power Distribution for a 400 W ATX12V ConfigurationMinimum Efficiency Vs Load Power Limit / Hazardous Energy LevelsEfficiency GeneralLoading Table for Efficiency Measurements Energy Star Energy Star Input Power ConsumptionOther Low Power System Requirements Output Ripple/NoiseMax. Ripple & Noise MVpp DC Output Noise/RippleOutput Capacitive Loads Output Transient ResponseCapacitive Load DC Output Transient Step SizesVoltage Hold-up Time 10. +5 VDC / +3.3 VDC Power SequencingTiming / Housekeeping / Control Closed-loop StabilityPwrok Pwrok Signal CharacteristicsPSON# 3. +5 VSB PSON# Signal CharacteristicsRisetime Power-on TimeReset after Shutdown 8. +5 VSB at AC Power-downNo-load Operation Output ProtectionOver-voltage Protection Short-circuit ProtectionOutput Bypass Over-temperature ProtectionMechanical Physical DimensionsLabeling / Marking Second optional fan may go in this location Second optional Airflow / Fan DC Connectors AC Connector+5V +33V 12V+12V1 +5V Pin Signal Color ATX Main Power ConnectorPin Signal AWG Wire 2. +12 V Power ConnectorPeripheral Connectors Connector Molex 39-01-2040 or equivalentConnector AMP 171822-4 or equivalent Pin Signal AWG Wire Serial ATA Power ConnectorFloppy Drive Connector Wire SignalHumidity TemperatureEnvironmental Thermal Shock ShippingRandom Vibration Mechanical ShockAcoustics Emissions Electromagnetic CompatibilityImmunity Magnetic Leakage Fields Input Line Current Harmonic Content and Line FlickerHarmonic Limits, Class D Equipment Component De-rating ReliabilityNorth America SafetyProscribed Materials International