Kod: Markera allt
Minimum load refers to the power demand placed on the power supply when using a
bare system configuration with minimal power requirement conditions.
Minimum load configuration test results are shown in Table 32.
The test configuration was defined as follows:
• 2 GB DDR3/1066 MHz SO-DIMM
• USB keyboard and mouse
• LAN linked at 1000 Mb/s
• DOS booted via network (PXE); system at idle
• All on board peripherals enabled (serial, parallel, audio, …)
Table 32. Minimum Load Configuration Current and Power Results
Output Voltage 3.3 V 5 V 12 V -12 V 5 VSB
Minimum Load 0.89 A 1.06 A 0.14 A 0.08 A 0.10 A
2.7.2 Maximum Load Configuration Maximum load refers to the incremental power demands placed on the power supply,
augmenting the minimum load configuration into a fully-featured system that stresses power consumption from all subsystems.
Maximum load configuration test results are shown in Table 33.
The test configuration was defined as follows:
• 4 GB DDR3/1066MHz SO-DIMM
• 14.1-inch LCD via LVDS
• SATA DVD-R/W
Load: DVD playback
• 3.5-inch SATA hard disk drive, running Microsoft Windows Vista Home Basic
Load: continuous read/write benchmark
• Intel Z-U130 USB Solid-State Drive or compatible device on the USB flash drive header
Load: continuous read/write benchmark
• Wireless card on PCI Express Full-/Half-Mini Card slot, connected via 802.11n protocol
Load: continuous read/write benchmark on remote share
• Riser card on conventional PCI slot, populated with PCI LAN card, running file
transfer through local network to SATA hard drive
• USB keyboard and mouse
• Back and front panel host-powered USB devices (other than keyboard and mouse)
Load: continuous read/write activity on external drive/peripheral
• LAN linked at 1000 Mb/s
Load: continuous read/write benchmark on remote share
• All on board peripherals enabled (serial, parallel, audio, …)
Table 33. Maximum Load Configuration Current and Power Results
Output Voltage 3.3 V 5 V 12 V -12 V 5 VSB
Maximum Load 4.78 A 6.32 A 2.01 A 0.05 A 0.72 A