AP-211 Datasheet, PDF(1/7 Page) California Micro Devices Corp – Instantly Available PCI Card Power Management

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AP-211 Datasheet, PDF (1/7 Pages) California Micro Devices Corp – Instantly Available PCI Card Power Management

CALIFORNIA MICRO DEVICES

AP-211

Instantly Available PCI Card Power Management

Introduction

Today, PCs need to remain constantly connected to the outside

world, but at the same time consume minimum power. Even

when looking ÂidleÂ, it is still possible to receive a message

from the Internet or an incoming fax or phone call. The PC

must automatically go from ÂsleepÂ mode to ÂonÂ mode; in

other words, an ÂInstantly AvailableÂ PC (IAPC). The challenge

is to maintain a systemÂs modem or Local Area Network

(LAN) connectivity on a desktop PC/workstation while at the

same time minimizing power consumption. These power

management features are called Wake-on-Ring (or Wake-

on-Modem), Wake-on-LAN, and Wake-on-PME (Power

Management Event).

The main qualities/benefits of such a system are:

Â Listening: available anytime to receive messages from

the outside world, and

Â Reacting: responding anytime to do a specific operation

(maintenanceÂ), and

Â Saving energy and being silent in the idle mode.

The ÂOnNowÂ initiative by MicrosoftÂ® defined the new

requirements for the system that affect both software and

hardware aspects of the PC: WindowsÂ® operating system,

applications, device drivers, and hardware within the system.

All these elements must work together in order to provide a

fully transparent power management system. This note will

focus only on the hardware aspects.

ACPI System Design

An instantly available PC appears to be ÂoffÂ, yet it can snap

back to its full ready state within seconds and respond to

the phone ringing in time to service the call.

In order to meet these requirements a recommendation, the

Advanced Configuration and Power Interface specification

(ACPI), has been defined by IntelÂ®, MicrosoftÂ®, and

ToshibaÂ®.

Instantly available motherboards include: ACPI BIOS, ACPI

chip set, and PCI slots that are compliant to the PCI-PM

specification. The Intel chip set supports the power

management features to define the ACPI sleep states and

also generates the signals to control power planes to turn

the main power supplies on and off.

The implementation includes multiple power sources and

uses separate power planes in the system. Each power source

is selected depending on the required state demanded by

the system, and one of the major requirements is to switch

between power sources continuously, automatically, and

without interruption.

The ÂsleepÂ state of an instantly available PC is called ÂSuspend

to RAMÂ. This is implemented by using:

Â split power planes in the system design, and

Â an auxiliary power source (VAUX) for dual mode power

distribution.

LetÂs focus on the PCI (Peripheral Component Interface) cards,

where California Micro DeviceÂs products have their primary

applications. By definition, all PCI add-on cards are connected

to the motherboard through the PCI bus. On the PCI

connector, several pins have been reserved in order to support

the instantly available functionality.

Â PME# (Power Management Event) pin (pin #A19) is

used to wake the system in response to a PCI power

management wake event such as the phone ringing.

Â 3.3Vaux pin (pin #A14) is used to deliver the auxiliary

power of 3.3V to all the wake-up PCI cards in the system.

This power is always available to keep the card active

even when the rest of the PCI bus is without power.

Three different independent voltage sources are now available

on the PCI bus: 3.3VAUX, 3.3VCC, and 5VCC. In a power plane

partitioning system of an instantly available PC, the 3.3VAUX is

electrically isolated from the main PCI 3.3V rail at all times.

During normal operation, the 3.3VAUX supply remains on all

the time, while the other main supplies, 3.3VCC and 5VCC, can

be switched on and off as needed.

PCI Adapter Card Application

PCI Network Interface Cards (NIC) and modem cards are also

designed with split power planes. Thus, they are able to

operate in sleep mode with only the Vaux power supply and

still be able to wake-up the system.

Some NICs that operate in ÂWake on LANÂ mode get a 5V

standby through a cable that connects directly to a specific

header on the motherboard.

Chip Set Voltage

Today, PCI card chip sets or ASICs operate at a low voltage of

3.3V. That allows much lower power consumption than with

the previous 5V modem chips. However ÂolderÂ PCs are still

operating at 5V and do not have any 3.3VAUX supply. ÂNewÂ

PCI cards must be compatible with these systems still in service,

and therefore must regulate on board their own 3.3V supply

from the 5V. This is made possible by using California Micro

DevicesÂ SmartORÂ power management products: the

CMPWR100 and CMPWR150. In addition, there is a

maximum current limitation of 375mA on the 3.3VAUX.

All trademarks are the property of their respective holders.

P/ActiveÂ® is a registered trademark and SmartORÂ is a trademark of California Micro Devices.

9/99

215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214

Fax: (408) 263-7846

C0210699A

www.calmicro.com

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