Intel TFX12V manual Random Vibration, Acoustics, Ecological Requirements

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TFX12V Power Supply Design Guide

Thin Form Factor with 12 V Connector

Version 2.0

4.6 Random Vibration

Non-operating:0.01 g²/Hz at 5 Hz, sloping to 0.02 g²/Hz at 20 Hz, and maintaining 0.02 g²/Hz from 20 Hz to 500 Hz. The area under the PSD curve is 3.13 gRMS. The duration shall be 10 minutes per axis for all three axes on all samples.

4.7 Acoustics

Sound Power: The power supply assembly shall not produce a declared sound power level greater than 3.8 BA. Sound power determination is to be performed at 43C, 50% of rated load, at sea level. This test point is chosen to represent the environment seen inside a typical system at the idle acoustic test condition, with the 43C being derived from the standard ambient assumption of 23C, with 20C added for the temperature

rise within the system (what is typically seen by the inlet fan). The declared sound power level shall be measured according to ISO 7779 and reported according to ISO 9296.

Pure Tones: The power supply assembly shall not produce any prominent discrete tone determined according to ISO 7779, Annex D.

4.8 Ecological Requirements

The following materials must not be used during design and/or manufacturing of this product:

Cadmium shall not be used in painting or plating.

Quaternary salt and PCB electrolytic capacitors shall not be used.

CFC’s or HFC’s shall not be used in the design or manufacturing process.

Mercury shall not be used.

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Contents Thin Form Factor with 12-Volt Connector TFX12VImportant Information and Disclaimers Revision History Version Release DateContents Mechanical Figures Introduction TFX12V ScopeTFX12V Overview Small System Optimized ProfileKey Changes for TFX12V Version Terminology Term Required Recommended OptionalMonotonically Noise Description Electrical AC InputInput Over Current Protection Inrush Current LimitingProduct Safety RegulatoryDC Output Catastrophic Failure ProtectionDC Voltage Regulation Remote SensingTypical Power Distribution Typical Power Distribution for 180 W TFX12V ConfigurationsTypical Power Distribution for 220 W TFX12V Configurations Cross Loading Graph for 220W ConfigurationTypical Power Distribution for 240 W TFX12V Configurations Cross Loading Graph for 240W ConfigurationPower Limit / Hazardous Energy Levels Typical Power Distribution for 270 W SFX12V ConfigurationsEfficiency General Efficiency Vs Load Loading Table for Efficiency MeasurementsOther Low Power System Requirements Energy Star Input Power ConsumptionOutput Ripple/Noise DC Output Noise/RippleOutput Transient Response Maximum Step Size Amps11 +5 VDC / +3.3 VDC Power Sequencing Capacitive LoadClosed-loop Stability Voltage Hold-up TimePower Supply Timing Timing / Housekeeping / ControlPwrok Signal Characteristics PwrokPSON# Power-on Time PSON# Signal Characteristics3 +5 VSB Output Protection Over-temperature Protection Short-circuit ProtectionNo-load Operation Over Current ProtectionPhysical Dimensions MechanicalLabeling /Marking Page Power Supply Mounting Slot Detail Mounting Options Chassis Requirements Suggested TFX12V Chassis CutoutAC Connector Airflow / FanDC Connectors TFX12V Connectors Pin-side view, not to scale1 TFX12V Main Power Connector Peripheral ConnectorsFloppy Drive Connector 4 +12 V Power Connector Serial ATA Power ConnectorEnvironmental Random Vibration AcousticsEcological Requirements Safety North AmericaInternational Electromagnetic Compatibility EmissionsImmunity Input Line Current Harmonic Content Magnetic Leakage FieldsVoltage Fluctuations and Flicker Harmonic Limits, Class D EquipmentSystem Cooling Considerations ReliabilityApplicable Documents

TFX12V specifications

The Intel TFX12V is a power supply unit (PSU) designed specifically for compact desktop systems, catering to the needs of PC builders who prioritize space-efficient components without compromising on performance. Intel's TFX12V specification defines the form factor and power delivery standards, ensuring compatibility across a wide range of motherboards and peripherals.

One of the main features of the TFX12V is its slimline design. Measuring 85mm in height, 65mm in width, and 150mm in depth, this PSU fits into smaller case designs, making it ideal for compact desktops or media centers. Despite its small size, the TFX12V delivers robust power, typically ranging from 300W to 400W. This output is sufficient for everyday computing tasks, light gaming, and media consumption, allowing users to create space-saving systems without sacrificing functionality.

The TFX12V power supply adheres to the ATX power supply standard, featuring a 24-pin ATX connector, which ensures broad compatibility with modern motherboards. Additionally, the TFX12V includes connections for other crucial components, such as the 4-pin CPU power connector and multiple SATA and PCIe connectors, enabling the build of systems with modern graphics cards and storage solutions.

The efficiency of the TFX12V is another significant aspect. Many models are designed to meet or exceed the 80 PLUS certification, which indicates at least 80% efficiency at 20%, 50%, and 100% loads. High efficiency not only reduces energy consumption but also minimizes heat generation, leading to quieter operation due to lower fan speeds.

In terms of safety and reliability, TFX12V power supplies come equipped with standard protections against over-voltage, under-voltage, and short-circuits. These safety features safeguard the valuable components of a PC from potential power surges or failures.

Furthermore, the product lifecycle of the Intel TFX12V often ensures access to advanced technologies, including pulsating load regulation and enhanced thermal management technologies. These features contribute to a stable power output and improved performance, even under load.

In summary, the Intel TFX12V power supply unit combines compactness, efficiency, and reliability, making it an attractive choice for users looking to build a small form-factor PC without compromising on essential features or quality. With its robust performance and modern technology, it meets the demands of today's computing needs effectively.