ZALMAN TNN 500AF manual Electricity Conservation, Ripple and noise waveforms at DC output

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High-Efficiency, Fanless Power Supply

The power supply uses high-efficiency FET

components and Heat Source Contact (HSC) technology, eliminating the need for a fan, and

has a 10% higher power conversion efficiency

(80%) rating than conventional power supplies. Heat from the power supply is transferred

directly to the high-capacity heatsink plates, where it is dissipated by natural convection, making the power supply free of noise and vibration.

-High-capacity active PFC inductors, separate switching transformers for each power rail (+12V, +5V, +3.3V), and 2-FET forward converter design all work to create a superior level of stable power quality.

-Conventional power supplies tend to have lower output voltage due to line-dropping phenomenon. The TNN Power Supply extends the output voltage sensors up to the motherboard connection for +3.3V, +5V, and +12V rails to prevent this, enhancing output voltage accuracy and assuring system stability.

Ripple and noise waveforms at DC output

a)+5VDC b)+3.3VDC c)+12V1DC d)+12V2DC e)-12VDC f)-5VDC g)+5VsdDC

(21.4mVp-p) (42.2mVp-p) (80.8mVp-p) (88.4mVp-p) (98.4mVp-p) (56mVp-p) (31.8mVp-p)

Data above were measured according to INTEL ATX v2.03/ATX12V power supply specs.

Measurement specifications : For each DC output, a bypass made up of one 0.1 F ceramic capacitor and one 10 F electrolytic capacitor is connected and measured with an oscilloscope (input impedance 1M ) at a frequency bandwidth of 20MHz. The waveforms may differ under different measurement conditions.

3) Electricity Conservation

Since TNN 500AF is equipped with a high-efficiency power supply and does not use any fans, it utilizes 10 to 15% less power compared to a conventional computer system under the same configuration.

TNN 500AF

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Contents Page For other language versions please visit our website English Edition TNN 500AF Disclaimer Complete Silence StabilityNorthbridge Heatpipe CPU HeatpipesVGA Card Heatpipes Electricity Conservation Ripple and noise waveforms at DC outputEMI Measurement Data Graphs Ease of UseShielding from EMI Electro-Magnetic Interference Test Results TNN 500AF Intel P4 Prescott System TNN 500AF TNN 500AF Heatpipe CPU Cooler Parts One1 Bag Heatpipe VGA Cooler Parts One1 BagHeatpipe Northbridge Cooler Parts One1 Bag Rear-mount Thermal BlocksPower Cord One1 Bag Latch Key Remote Control SetMotherboard Power Cable One1 Bag ODD/FDD Bolts Motherboard Bolts One1 BagTNN 500AF CPUs with Thermal Design Power ratings under 100W Compatible VGA CardsThermal Transfer Capacity Output Power Cable Compatible Components Precautionary Notes on BootingOperating Environment Opening and Disassembling the TNN500AF Case For Intel Pentium 4 Socket 775 Motherboards Installing the CPU Clip Support and MotherboardFor Intel Pentium 4 Socket 478 Motherboards Installing the Rear-mount Thermal Blocks For AMD AMD64 MotherboardsTNN 500AF TNN 500AF Installing the Heatpipe Northbridge Cooler TNN 500AF Installing the Heatpipe CPU Cooler TNN 500AF Install the Heatpipe CPU Cooler as shown in the diagram Installing the Heatpipe VGA Cooler TNN 500AF TNN 500AF TNN 500AF Installing the ODD/FDD/HDD TNN 500AF TNN 500AF Installing PCI Cards Connecting the Power & Data Cables To Use the Remote Control Function Color codes To Sacrifice the Remote Control Function Three Available Dual USB Port on the Motherboard TNN 500AF Connecting Audio I/O, IEEE1394, and IEEE1394B Cables Use Casters Using the Remote Control Is prohibited
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