Introduction

In this review we will be taking an in-depth look at two of PC Power & Cooling’s newest power supplies, the Silencer 360 ATX and the Silencer 410 ATX.

We evaluated both the Silencer 360 ATX and Silencer 410 ATX power supplies on features and performance.  A full range of equipment was used to test each power supply under controlled load conditions.  In addition to measuring the power going in and coming out we looked at voltage regulation, electrical noise (AC ripple), airflow, sound level, efficiency and cost.  Here is a block diagram of the test bench setup and a list of the equipment I used during testing.

 

PC Power & Cooling Silencer ATX Power Supplies - Cases and Cooling 25

 

 

  • FLUKE 87-III True RMS digital multimeter (Accuracy +/- 0.05% of 3-digit reading)
  • WattsUp? Pro — digital wattmeter and power analyzer (Accuracy 3% of displayed value)
  • Hitachi V-650F 60 MHz dual trace oscilloscope (Accuracy +/- 3% of input range)
  • Powerstat Variable Autotransformer, 1.4 KVA, 0-140 VAC
  • FLUKE  52-II digital thermometer (Accuracy +/- 0.3ºC/0.5ºF)
  • Extech Model 407736 digital sound level meter (Accuracy +/- 1.5 dB)
  • AccuLab V1-10kg digital balance (Accuracy +/- 1g)
  • Homemade power supply load tester — selectable load, up to 300 watts

 PC Power & Cooling Silencer ATX Power Supplies - Cases and Cooling 26

(click to enlarge)

 

To be ATX compliant, a power supply must be designed and built according to a set of standards created by Intel (ATX Specification — Version 2.1), which along with motherboard specifications also defines the size, form factor, connectors, voltage outputs, etc., that a power supply must incorporate.  More detailed information can be found in the ATX12V Power Supply Design Guide. 

 

The switching-mode power supplies used in modern PCs are designed to convert alternating current (AC) into direct current (DC) used by the computer’s internal components.  A standard ATX power supply will produce three different voltages to power the motherboard, CPU, memory, hard drives, optical drives, etc.  These are: +3.3 volts, +5 volts, and +12 volts.  In addition, the PSU also generates several other voltages: -12 volts and +5 volts STBY (note: the -5 volt output was removed in ATX12V rev. 1.3).

   

Establishing a controlled load is critical to testing and evaluating a PC power supply.  I built my own power supply load tester using 11 wire-wound, ceramic resistors of various sizes.  This unit can place up to a ~300 watt load onto the power supply being tested.  Different combinations of resistors can be switched in or out to select various loads.  I will be using a 240 watt combined load to simulate a medium to heavily loaded typical PC.

 

PC Power & Cooling Silencer ATX Power Supplies - Cases and Cooling 27

PC Power & Cooling Silencer ATX Power Supplies - Cases and Cooling 28

 

The tester connects to the power supply thru the 20-pin ATX motherboard connector and two 4-pin Molex drive connectors.

 

PSU Load Tester – Resistors

Voltage

Qty

Description

Watts

+3.3V

3

1 ohm, 50 watt

  32.7

+5.0V

4

1 ohm, 50 watt

100.0

+12.0V

1

1 ohm, 200 watt

144.0

1

10 ohm, 50 watt

  14.4

1

92mm cooling fan

   2.4

-12.0 V

1

56 ohm, 25 watt

   2.6

+5V-SB

1

5 ohm, 25 watt

   5.0

Maximum Total Watts

301.1

 

 Here is the Ohm’s Law key if you are trying to remember how the different variables relate… 🙂

 

PC Power & Cooling Silencer ATX Power Supplies - Cases and Cooling 29

(Click to enlarge)

 

 

« PreviousNext »