Datasheet

Technical Reference

2.7 Power Consumption

Power measurements were performed to determine bare minimum and likely

maximum power requirements from the board, as well as attached devices, in order to

facilitate power supply rating estimates for specific system configurations.

2.7.1 Minimum Load Configuration

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 25. The test configuration was defined as

ollows:

• 4 GB DDR2/667 MHz DIMM

• USB keyboard and mouse

• LAN linked at 100 Mb/s

• DOS booted via network (PXE); system at idle

• All on board peripherals enabled (serial, audio, …)

Table 25. Minimum Load Configuration Current and Power Results

Current Draw at 12 V Power Consumption

1.591 A 19.092 W

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 26. The test configuration was defined as follows:

• 4 GB DDR2/667 MHz DIMM

• SATA DVD-R/W

⎯ Load: DVD pl

ayback

• 3.5-inch SATA hard disk drive, running Microsoft Windows Vista Home Basic

⎯ Load: continuous read/write benchmark

• 2.5-inch SATA hard disk drive

⎯ Load: continuous read/write benchmark

• 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

• Intel Z-U130 USB Solid-State Drive (or compatible device) on the USB flash drive

header (D410PTLW only)

⎯ Load: continuous read/write benchmark

• Back and front panel host-powered USB devices (other than keyboard and mouse)

⎯ Load: continuous read/write activity on external drive/peripheral