U.S. patent application number 09/801386 was filed with the patent office on 2001-11-22 for portable computer with low power audio cd-player.
Invention is credited to Atkinson, Lee.
Application Number | 20010043456 09/801386 |
Document ID | / |
Family ID | 27361157 |
Filed Date | 2001-11-22 |
United States Patent
Application |
20010043456 |
Kind Code |
A1 |
Atkinson, Lee |
November 22, 2001 |
Portable computer with low power audio CD-player
Abstract
A system and method to reduce power consumption in a portable
computer system while allowing the CDROM drive to continue playing
audio CDs. When the system enters a suspend mode, the status of the
CDROM drive is checked, and if it is playing an audio CD, it
remains powered, otherwise power to the CDROM drive is also
suspended. The system recognizes when the audio CD is finished
playing and then places the CDROM drive into the suspend mode.
Inventors: |
Atkinson, Lee; (Houston,
TX) |
Correspondence
Address: |
CONLEY ROSE & TAYON, P.C.
P. O. BOX 3267
HOUSTON
TX
77253-3267
US
|
Family ID: |
27361157 |
Appl. No.: |
09/801386 |
Filed: |
March 8, 2001 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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09801386 |
Mar 8, 2001 |
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09566748 |
May 9, 2000 |
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09566748 |
May 9, 2000 |
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09150530 |
Sep 10, 1998 |
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6088809 |
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09150530 |
Sep 10, 1998 |
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08699989 |
Aug 20, 1996 |
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5838983 |
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60019109 |
Jun 30, 1996 |
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Current U.S.
Class: |
361/679.26 ;
361/679.55 |
Current CPC
Class: |
G06F 1/3221 20130101;
Y02D 10/154 20180101; Y02D 10/00 20180101 |
Class at
Publication: |
361/683 |
International
Class: |
G06F 001/16 |
Claims
What is claimed is:
1. A method for operating a portable computer system, comprising
the steps of: receiving a command to place said system in a suspend
mode; determining whether an audio CD is playing in a CDROM drive;
if an audio CD is not playing, placing said system in a suspend
mode; if an audio CD is playing, continuing to operate said CDROM
drive, while placing the remainder of said system in a suspend
mode.
2. The method of claim 1, further comprising the steps of
determining when said audio CD has finished playing, and then
placing said CDROM drive in a suspend mode.
3. The method of claim 1, further comprising the step of when a
predetermined time has expired, placing said CDROM drive in a
suspend mode.
4. The method of claim 1, further comprising the steps of manually
stopping said audio CD from playing, and then placing said CDROM
drive in a suspend mode.
5. A method for operating a portable computer system, comprising
the steps of: receiving a command to place said system in a suspend
mode; determining whether an audio CD is playing in a CDROM drive;
if an audio CD is playing, then leaving said CDROM drive in its
present state; isolating at least one of a plurality of CDROM
control signals from other system signals; placing a digital
section of an audio CODEC in a suspend mode; leaving an analog
section of said audio CODEC in an active mode; and leaving at least
one audio power amplifier in an active state; if an audio CD is not
playing, then placing said CDROM drive in a suspend mode; placing
said audio and digital sections of said CODEC in a suspend mode;
placing said audio power amplifier in a suspend mode.
6. The method of claim 5, further comprising the steps of
determining whether said audio CD has finished playing, and if it
has, then placing said CDROM drive in a suspend mode, placing said
analog section of said CDROM drive in a suspend mode, and placing
said audio power amplifier in a suspend mode.
7. The method of claim 5, further comprising the steps of manually
stopping said audio CD from playing, and then placing said CDROM
drive in a suspend mode, placing said analog section of said CDROM
drive in a suspend mode, and placing said audio power amplifier in
a suspend mode.
8. The method of claim 5, further comprising the steps of after a
predetermined time has expired, placing said CDROM drive in a
suspend mode, placing said analog section of said CDROM drive in a
suspend mode, and placing said audio power amplifier in a suspend
mode.
9. The method of claim 5, wherein said audio CODEC comprises an
ESS1688 device.
10. A portable computer system comprising: a microprocessor; a
memory connected to said microprocessor; a display device connected
to display data generated by said microprocessor; an audio
controller connected to said microprocessor; an audio input device
connected to said audio controller for reading audio data; a
battery connected to power said microprocessor, memory, display
device, audio controller, and audio input device; wherein said
system may be placed in a suspend mode in which said microprocessor
and display are placed reduced power state; and wherein said audio
input device and said audio controller may be selectably placed in
a reduced power state when said system is in said suspend mode.
11. The system of claim 10, further comprising circuitry to isolate
an input to said audio input device from a system bus when said
system is in a suspend mode.
12. The system of claim 10, further comprising circuitry to
indicate if said audio input device is providing audio input.
13. The system of claim 11, 12, wherein said circuitry to isolate
is a latch.
14. The system of claim 11, 12, wherein said circuitry to isolate
is a tristatable buffer.
15. The system of claim 10, further comprising circuitry to control
said audio input device when said system is in a suspend mode.
16. The system of claim 10, wherein said audio input device is a
CD-ROM drive.
17. The system of claim 10, wherein said audio input device may
also be used as a data input device.
18. The system of claim 10, wherein said audio controller comprises
an ESS1688 device.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application claims priority from provisional
60/019,109, filed Jun. 3, 1996, which is hereby incorporated by
reference. However, the content of the present application is not
necessarily identical to that of the priority application.
BACKGROUND AND SUMMARY OF THE INVENTION
[0002] Multimedia PCs often incorporate CD-ROM drives and audio
subsections. CD-ROM players are valuable as data storage devices,
but also may be used to play standard Audio CD disks. However,
typical computers today require that the CPU be fully "on" to play
an audio CD. As a result, a typical portable computer today can
only play CDs for about 2-3 hours.
Operation of the Portable CD-ROM and Audio Subsection Today
[0003] Portable computers today are typically organized as a system
consists of a Microprocessor and its support chips, as well as
common peripherals (including, e.g., the graphics subsection,
PCMCIA controller, hard disk and floppy disk controller, interface
port control, e.g. for printer and serial busses, keyboard
controller, etc.) which interface to the CPU. A fixed disk drive
and CD-ROM are typically attached on a common bus, e.g. an IDE or
SCSI bus. "ATAPI-compliant" CD-ROMs are capable of either data
retrieval, or playing audio disks (so called "Redbook" or "CD-A"
disks). The CD-ROM control signals and data come over the common
bus, but audio signals are output directly from the CD-ROM on an
independent analog output.
[0004] A typical example of a computer audio system employs an
audio mixer or "SoundBlaster" compatible audio codec. The output of
the CD-ROM is a common input to the Audio Mixer. The function of
the mixer is to provide volume control of the CD-ROM outputs along
with other PC sounds. The output of the mixer goes to a power
amplifier, which outputs to speakers or to a headphone jack. The
audio codec and power amplifier together form the Audio section of
the computer.
[0005] A Real Time Clock (RTC) is a virtually universal peripheral
to today's PCs. The RTC is always powered up, and is used to both
keep track of the time and date and to act as an "alarm clock" to
the system, whereby the system may be "woken" from Suspend after a
predetermined time has passed.
[0006] Power management circuitry is an integral part of a typical
battery-powered computer. Power management is principally
controlled by a program in the CPU memory and enables active status
to the peripherals and support logic of the system.
[0007] Typically, a low-power "Suspend" mode is supported, where
the entire state of the system is frozen, timing clocks are turned
off, and power is removed from any logic whose state is
unimportant. Power to at least some portions of the system must
remain active during Suspend. The function of Suspend mode is to
freeze the condition of the system while taking the least amount of
power. In Suspend, the only activity the system supports is to
recognize a "wakeup" event and return to normal operation: the
"RESUME" sequence may be initiated by the system (e.g. by button
press, modem ring, Real time clock alarm, or low battery
event).
[0008] Typical power dissipation for the unit in a FULL SUSPEND
mode is about 200 milliwatts. After "Resume" from Suspend, power to
all devices is returned, and the pre-existing states of the CPU,
the operating system, and the application is restored to its state
before Suspend was executed.
[0009] Suspend mode is usually entered after a period of
inactivity, after a critical condition event (for instance, a low
battery condition or overtemperature of the unit), or manually by
the user.
[0010] Typically, when in Suspend mode, power to the fixed disk and
CD-ROM drives are disconnected (shown here as SW1 under the control
of a SUSPEND status signal). The audio subsection is also placed
into a non-functional mode; either power may be removed completely
from the system or the Audio mixer/Codec and power amplifier may be
placed into a non-functional SUSPEND mode under the control of the
SUSPEND status line.
[0011] The peripheral components are also placed into inactive
functionality or turned off by the single SUSPEND status.
[0012] Applications run within the CPU to play an audio CD. For
example, within the Windows operating system, these utilities are
called "Media Player" or "CD player," though many such applications
are known.
Limitation of Known Implementations
[0013] For the sole purpose of playing an Audio CD, today's
portable computer uses more power than is required. This is
because, in order to play an Audio Compact Disk today, the entire
peripheral set remains powered and functional, although they are
not being used. Since a full SUSPEND globally powers down all
peripherals, it is not possible on today's portable computers to
allow the system to suspend all unnecessary system elements while
playing an audio CD.
Innovative System and Method for Low-Power CD Audio
[0014] The present application describes a computer system and
method which provides a "CD-player Suspend" mode, where the audio
section and CD-ROM are left active while the remaining system is
placed into a low power mode.
BRIEF DESCRIPTION OF THE DRAWING
[0015] The disclosed inventions will be described with reference to
the accompanying drawings, which show important sample embodiments
of the invention and which are incorporated in the specification
hereof by reference, wherein:
[0016] FIG. 1 is a typical computer system [from your writeup]
[0017] FIG. 2 is a computer system according to the presently
preferred embodiment [from your writeup].
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0018] The numerous innovative teachings of the present application
will be described with particular reference to the presently
preferred embodiment (by way of example, and not of limitation), in
which: Portable computers today are typically organized as
below:
[0019] The "System" consists of a CPU 1; here, the CPU refers to
the Microprocessor and support chips themselves. The common
peripherals 8 (including, e.g., the graphics subsection, PCMCIA
controller, hard disk and floppy disk controller, interface port
control (printer and serial busses), keyboard controller, etc.)
interface to the CPU.
[0020] A fixed disk drive 2 and CD-ROM 3 are typically attached on
a common bus, in this case an IDE or SCSI bus. "ATAPI-compliant"
CD-ROMs are capable of either data retrieval, or playing audio
disks (so called "Redbook" or "CD-A" disks). The CD-ROM control
signals and data come over the IDE bus, but audio signals are
output directly from the CD-ROM on an independent analog
output.
[0021] A typical example of a computer audio system employs an
audio mixer or "SoundBlaster" compatible audio codec 4. The output
of the CD-ROM is a common input to the Audio Mixer. The function of
the mixer is to provide volume control of the CD-ROM outputs along
with other PC sounds. The output of the mixer goes to a power
amplifier 5. Final output of the power amp is to speakers or to a
headphone jack. The audio codec and power amplifier together
comprise the Audio section of the computer.
[0022] A Real Time Clock (RTC) 6 is a universal peripheral to the
PC. The RTC is always powered up, and is used to both keep track of
the time and date and to act as an "alarm clock" to the system,
whereby the system will be "woken" from Suspend after a
predetermined time has passed.
[0023] Power management circuitry 7 is an integral part of the
battery-powered computer. Power management is principally
controlled by a program in the CPU memory and enables active status
to the peripherals and support logic of the System.
[0024] This application describes a method and system for enabling
a low power Audio CD player mode, where the CPU is put into Suspend
and the Audio CD is allowed to play. Without this mode, a typical
portable computer could only play CDs for about 2-3 hours; with
this mode, performance of 10-15 hours on a battery charge is
possible. The convenience is for mobile users who want to enjoy the
performance of a standalone "Diskman" but don't want the carry
weight and size of a separate player.
[0025] The basic operation for the presently preferred embodiment
is to interrogate the status of the CD-ROM when a Suspend is
initiated, and decide which of two low power states to configure
the CD-ROM drive and the audio subsection to. The preferred
embodiments include a system and method to separate "global"
Suspend (whereby all peripherals are turned off) from the
"CD-player" Suspend.
[0026] A. The hardware required for the presently preferred
embodiment is not altogether unique but requires a certain minimum
of functionality;
[0027] i. As with the traditional portable, the processor and
peripheral set (graphics subsystem, processor and supporting
chipset, keyboard controller, peripheral controller, etc) can be
placed into a low-power SUSPEND mode.
[0028] ii. One important feature of the preferred embodiment is the
ability to leave the Audio mixer portion of the Codec and the power
amplifiers in an active state independent of the state of the
peripherals or processor. In this state the output of the CD-ROM
audio channel may be output through the codec and amplifiers.
[0029] iii. Another important feature of this embodiment is the
ability to leave the CD-ROM active when playing an audio CD,
independent of the Suspend status of the peripherals and
processor.
[0030] iv. Another feature of this embodiment is the ability to
remove power from the Fixed disk while leaving power to the CD-ROM
(allowing the CD-ROM to remain active). There are several standard
ways (and one unique way) to accomplish this. In one alternative,
the Fixed disk drive may be placed into a low power Suspend
condition independent of the CD-ROM.
[0031] v. Optionally, a signalling method for Audio CD commands
(for example, fast forward, seek, skip) from the keyboard or
control panel may become active when the unit is in a "CD Player
Suspend" mode.
[0032] B. Logic is called during the system entrance into
Suspend.
[0033] The purpose of this logic is to;
[0034] i. Interrogate the system to find if an audio CD is playing
in the CD-ROM drive. This interrogation may be manual or
automatic.
[0035] ii. As with traditional portables, configure the processor
and all peripherals to lowest power mode ("Full Suspend") if no
audio disk is playing in the CD-ROM.
[0036] iii. (Unique to this invention) to configure the processor
and peripherals to lowest power mode while allowing the CD-ROM
drive and Audio subsection to remain active if an Audio CD disk is
playing.
[0037] C. One feature of the preferred embodiment is a method to
exit the low power "CD-player Suspend" once the audio CD is
finished playing and configure the machine to an Active state, to a
"Full Suspend" state, or to an "Off" state.
[0038] A. Specific Hardware Implementation
[0039] The figure below shows a specific Hardware implementation of
the low power CD player.
[0040] 11. Section 11 comprises the CPU and its support chips. In
this instance, the processor is a Pentium CPU and the support chips
are the Opti 558 family (556, 557, 558, and 602 devices). A general
purpose output of the 602 chip is set high by the CPU when a
SUSPEND operation is to occur. Another general purpose output
controls the new function, AUDIO SUSPEND. Both outputs are under
control of the CPU via writes to I/O register locations across the
ISA bus.
[0041] 12. The Fixed Disk drive 12 is connected to the IDE bus. The
power to the fixed disk drive is enabled through a transistor which
is turned OFF when Suspend is active. This switch is represented at
SWI.
[0042] 13. The CD-ROM 13 has separate power control, enabled
through SW3. SW3 is a transistor which is turned off when the
signal AUDIO_SUSPEND from section 11 is active.
[0043] 14. The audio mixer and codec functions are performed with
an ESS1688 device 14. The ESS1688 is a single-chip
SoundBlaster-compatible device which interfaces to the CPU across
an ISA bus. The ESS1688 device may be placed into "partial
standby," where the digital section (the Codec function of the ESS)
is placed into suspend but the analog mixer section remains active.
This enables the ESS device to continue to function as a volume
control when the System is in CD-player Suspend mode. The ESS1688
device is placed into a partial standby mode by writes across the
ISA bus to registers inside the device. Power is applied to the
ESS1688 device during both SUSPEND or CD-Player Suspend modes. The
specification for the ESS1688 may be obtained from ESS Technology,
Inc., 48107 Landing Parkway, Fremont, Calif. 94538-6407, USA, and
is hereby incorporated by reference.
[0044] 15. Power to the audio amplifiers 15 is enabled through a
transistor gated by AUDIO_SUSPEND.
[0045] 16. The Real Time Clock 16 (RTC) function is performed by
the 602 chip. the RTC functions are always active. In this specific
implementation, the RTC is used to terminate the CD-player mode by
waking the system after the audio CD will have finished
playing.
[0046] 17. Power management circuitry 17 is an integral part of the
battery-powered computer. Power management is principally
controlled by a program in the CPU memory and enables active status
to the peripherals and support logic of the System.
[0047] 18. The peripheral chips 18 (the graphics controller, fixed
disk drive logic, parallel and serial port controls, etc) is
powered off by disabling a transistor connected to VCC. (In usual
practice, the register contents of these peripherals will be read
and stored into non-volatile memory under control by the CPU before
power is removed). The transistor is turned off when the signal
SUSPEND is active.
[0048] 19. Because the CD-ROM drive 13 shares the IDE bus with the
Fixed disk drive 12, and power is removed from the Fixed disk
drive, the control lines attached to the IDE device will go low.
Since the CD-ROM control lines are active low, this would force the
CD-ROM into an active state and upset the state of the CD-ROM. To
avoid this, the control lines to the CD-ROM must be forced into a
non-active state. In the preferred embodiment, this function is
performed by isolating the control lines to the CD-ROM with a
tristatable buffer 19 gated by AUDIO_SUSPEND. The lines which are
tristated include the RESET*, WRITE*, and READ*. The CD-ROM control
lines are held inactive through the use of pullup resistors added
between the CD-ROM inputs and VCC.
[0049] B. A Method to Enter and Exit CD-Player Mode
[0050] This process is performed when a SUSPEND is requested.
According to the preferred method; the system interrogates whether
the CD-ROM is playing an Audio CD and determines the appropriate
power state of the system. The system then enables a mechanism for
terminating the CD-Player suspend mode and returns the system to a
Full Suspend mode. As is usual for any SUSPEND function, the
software for performing these functions is stored in BIOS ROM
accessible by the CPU.
[0051] 1. Interrogating the CD-ROM
[0052] Characteristic of an ATAPI compliant CD-ROM is the command
"Play Audio CD." This command will be issued by an application, for
example the "Media Player" application under the Windows operating
system. After this command is issued, the CD-ROM will play without
any further instruction by the CPU.
[0053] In the preferred embodiment, the system determines if the
CD-ROM is playing an Audio CD through an ATAPI query to the CD-ROM
drive. Available, standard ATAPI commands include the REQUEST
SENSE, INQUIRE, and READ CD commands. The CD-ROM will respond with
a status byte indicating if an Audio CD is busy playing.
[0054] 2. No Audio CD is Playing
[0055] If no audio CD is playing (an ATAPI query answer replies
negatively) then the entire system is placed into Full SUSPEND. The
system performs normal SUSPEND function (copies all important
register data to non-volatile memory and enables a Resume event)
before concluding with the below power sequence;
[0056] a. The ESS1688 is put into Full Suspend. Full suspend is
entered by setting bit 3 of the Power management register (register
227h) to a "0" ("ANALOG stays off"); then by pulsing bit 2 high,
then low.
[0057] b. Power to the CD-ROM and to the power Amplifiers is turned
off by setting the line AUDIO_SUSPEND active.
[0058] c. Power is removed from the remaining chipset (and main
functional clocks are terminated) by setting the SUSPEND line
active.
[0059] 3. An Audio CD is Playing
[0060] If an Audio CD is playing (ATAPI query returns "Playing
Audio CD" status) then the CD-ROM drive and Audio are left active
while the rest of the system is placed into Suspend.
[0061] After copying the state of the peripheral set registers to
non-volatile memory (the normal operation before executing a full
Suspend) the system performs the following timing sequence;
[0062] a. The ESS1688 is placed into "partial suspend." Partial
suspend is entered by setting bit 3 of the Power control register
to a "1," then by pulsing bit 2 high, then low.
[0063] b. Power to the CD-ROM is left to the CD-ROM, and to the
power amplifiers by leaving the signal "CD-player Suspend" line
inactive.
[0064] c. A mechanism is employed to terminate the CD-player mode
and return to the Full Suspend mode when the CD is through playing.
This mechanism uses the RTC device to periodically wake the System
from "CD-player Suspend" to "Full awake" condition. This is
accomplished by;
[0065] i. the RTC has an alarm feature. When the actual time
matches a preset time, an "alarm" is issued. The alarm is activated
by reading the present time, adding a certain amount to the time,
then writing to the Alarm register inside the RTC. In this example,
15 minutes is added to the actual time to create the Alarm time
(the alarm will ring 15 minutes later). The alarm registers are
indexes 01h, 03h, and 05h inside the RTC I/O location of 70h and
71h.
[0066] ii. The alarm is enabled to wakeup the System by setting the
IRQ *in this case, ISA IRQ8 from the RTC) to generate a "RESUME"
event. This is done by writing to the register SYSCFG 6Ah, bit 6
inside the 602 chip.
[0067] d. The system enters an otherwise "full" suspend by setting
the Suspend line active. The CPU (1), peripheral set (8), and hard
drive (2) will become inactive and the isolation to the CD-ROM (9)
will become active. The state of the CD-ROM is thus preserved, and
the power amplifiers will continue to operate in the "CD-Player"
suspend mode.
[0068] e. A mechanism checks to see if the Audio CD is finished
playing. 15 minutes after the System enters CD-player suspend mode,
the RTC will issue an IRQ and the system will RESUME. Normally upon
a resume, a full restoration is made to the system and the
peripheral set. For the preferred embodiment, a limited RESUME
occurs, where the only task for the processor is to query the
CD-ROM for playing status and the system repeats the entire process
(at 1 above). If the CD-ROM has stopped playing the audio CD, a
query to the CD-drive will return the status "Audio disk stopped."
In that case (no audio CD is playing) the system will enter at "2"
and issue a full Suspend. If the Audio CD is playing, the system
continues at "3" and the Audio CD continues playing.
[0069] According to one disclosed embodiment, there is provided a
method for operating a portable computer system, comprising the
steps of: receiving a command to place said system in a suspend
mode; determining whether an audio CD is playing in a CDROM drive;
if an audio CD is not playing, placing said system in a suspend
mode; if an audio CD is playing, continuing to operate said CDROM
drive, while placing the remainder of said system in a suspend
mode.
[0070] According to another disclosed embodiment, there is provided
a method for operating a portable computer system, comprising the
steps of: receiving a command to place said system in a suspend
mode; determining whether an audio CD is playing in a CDROM drive;
if an audio CD is playing, then leaving said CDROM drive in its
present state; isolating at least one of a plurality of CDROM
control signals from other system signals; placing a digital
section of an audio CODEC in a suspend mode; leaving an analog
section of said audio CODEC in an active mode; and leaving at least
one audio power amplifier in an active state; if an audio CD is not
playing, then placing said CDROM drive in a suspend mode; placing
said audio and digital sections of said CODEC in a suspend mode;
placing said audio power amplifier in a suspend mode.
[0071] According to another disclosed embodiment, there is provided
a portable computer system comprising: a microprocessor; a memory
connected to said microprocessor; a display device connected to
display data generated by said microprocessor; an audio controller
connected to said microprocessor; an audio input device connected
to said audio controller for reading audio data; a battery
connected to power said microprocessor, memory, display device,
audio controller, and audio input device; wherein said system may
be placed in a suspend mode in which said microprocessor and
display are placed reduced power state; and wherein said audio
input device and said audio controller may be selectably placed in
a reduced power state when said system is in said suspend mode.
Further Modifications and Variations
[0072] As will be recognized by those skilled in the art, the
innovative concepts described in the present application can be
modified and varied over a tremendous range of applications, and
accordingly the scope of patented subject matter is not limited by
any of the specific exemplary teachings given.
Variations of the CD-ROM Isolation Logic 9
[0073] The preferred approach isolates the CD-ROM from the IDE bus
when the low power CD-Player suspend mode is enabled. There are
other methods for accomplishing this;
[0074] 1. No isolation is used between the Fixed disk drive and the
CD-ROM. There are 2 variations of this method;
[0075] a. The hard drive and CD-rom drive may be powered at the
same time; no effort is made to isolate the CD-rom power from the
hard drive power. The fixed disk may be placed in to a SUSPEND mode
by writing to a control register in the Fixed disk itself. Because
the Fixed Disk drive is powered up in this mode, it will not
activate the (active low) control signals on its attached IDE bus
as it would if powered off. This is not the preferred approach,
since today the fixed disk drive consumes about half a watt when in
SUSPEND (about 20% of the CD-Player suspend power budget).
[0076] b. The hard drive logic may be "input tolerant" so that when
the hard drive is unpowered, there is no conduction between the IDE
bus and the hard drive. No such drives exist today.
[0077] 2. Isolation may be used on the hard drive; instead of
decoupling the IDE bus from the CD-rom drive during CD-Player mode,
the hard drive may be decoupled and powered off. This requires the
IDE interface logic to maintain an inactive state during the
CD-Player Suspend.
[0078] 3. Isolation may consist of a latch instead of a tristatable
buffer (section 9) since the purpose of the isolation is simply to
maintain the present state of the CD-ROM.
[0079] 4. The CD-ROM may remain powered during either Full SUSPEND
or CD-PLAYER SUSPEND, but have the CD-ROM enter a low-power Suspend
condition instead of being powered off when no audio CD is
playing.
Variations in the Audio Mixer
[0080] The audio mixer could be bypassed completely in CD-Player
mode. Volume control could be done by other passive or active
circuitry. In the preferred approach, volume control is performed
simply with a potentiometer located between the Audio Mixer and the
power amplifier.
Variations in Termination of CD-Player Mode
[0081] The preferred approach uses the RTC to wakeup the system
periodically and re-evaluate the status of the CD-ROM. Other
approaches may be used;
[0082] 1. The RTC may be set for a single maximum time before the
CD-Player mode is exited. The time may be the maximum possible
length of an audio CD (74 minutes) or the system may determine the
playing time remaining on the present CD and set the RTC alarm for
that length of time.
[0083] 2. The System could wake up upon an opening of the CD-drive
tray. This would be more convenient to a user who wants to start
playing another disk, since the application to initiate playing of
the next CD would be available through the operating system. One
possible implementation for this is to have the IRQ on the IDE bus
wake the system from CD-PLAYER SUSPEND to Fully active, where the
application which initiates the CD-player function could
restart.
[0084] 3. The CD-Rom drive could accept commands from another
control source when in CD-Player suspend for common Disk player
commands such as track skip, fast forward reverse, etc. In this
variation, control buttons which are read by the System during
Fully On operation but are read by the CD-ROM when in CD-Player
mode. A possible implementation for this is;
[0085] 1. On the system enclosure are dedicated lines for the
CD-rom commands. During normal (fully ON) operation, these lines
are read by the keyboard controller and instruct an audio disk
player application running under the operating system. The
Application itself instructs the CD_ROM to change tracks, etc by
issuing ATAPI packet commands to the CD-ROM.
[0086] 2. During CD-Player mode, the buttons are read directly by
the CD-ROM with no required intervention by the CPU. A possible
implementation of this is to change the function of the IDE bus to
signal the CD-ROM drive that the CD-Player mode is engaged, and to
signal directly to the CD-ROM (not through the packet ATAPI
commands) entrance to CD-player mode, the CD is alerted to use the
alternative control lines instead of ATAPI commands.
Variation on the Method
[0087] The preferred approach interrogates the ATAPI CD-ROM by
query commands to detect the playing status of the CD. Other
methods exist to determine if a CD is playing an Audio Disk;
[0088] 1. Another method for determining if an audio CD is playing
is for the application which initiates the CD-rom playing the Audio
disk to "register" with the system when a play is initiated.
Instead of the system reading the state of the CD-ROM drive, it can
instead read simply a memory bit which is set by the application
itself.
[0089] 2. The system can monitor the audio output stream of the
audio mixer to determine if a CD-ROM is active. In this
implementation, the system would measure the analog output of the
CD-ROM to determine the status of the CD-ROM drive. The system
could also use this to detect when an Audio CD is finished playing
and terminate the CD-Player mode.
[0090] 3. An activity line from the CD-ROM itself could indicate
that the CD-ROM is busy playing an audio CD. A possible
implementation is for the Audio CD-rom to hold its DASP* line,
Interrupt line, or Activity LED active during Audio CD play. The
DASP* line is commonly used to indicate data read activity from a
CD-ROM drive, but usually does not become active today during play
of an Audio CD. So such an implementation would require an
enhancement of the current ATAPI CD-ROM drive.
[0091] It should also be noted that the disclosed innovative ideas
are not limited only to Windows, DOS or UNIX systems, but can also
be implemented in other operating systems.
[0092] It should also be noted that the disclosed innovative ideas
are not limited only to systems using ISA, EISA, and/or PCI busses,
but can also be implemented in systems using other bus
architectures.
[0093] It should also be noted that the disclosed innovative ideas
are not limited only to systems based on an x86-compatible
microprocessor, but can also be implemented in systems using 680x0,
RISC, or other processor architectures.
[0094] It should also be noted that the disclosed innovative ideas
are not by any means limited to systems using a single-processor
CPU, but can also be implemented in computers using multiprocessor
architectures.
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