Tnn 500af, 3) electricity conservation – ZALMAN TNN 500AF User Manual

TNN 500AF

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.

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.

Ripple and noise waveforms at DC output

a)+5VDC

(21.4mVp-p)

b)+3.3VDC

(42.2mVp-p)

c)+12V1DC

(80.8mVp-p)

d)+12V2DC

(88.4mVp-p)

e)-12VDC

(98.4mVp-p)

f)-5VDC

(56mVp-p)

g)+5VsdDC

(31.8mVp-p)

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.