_äìÉi~Ä»
BlueLab™ v3.2 Combined AV Headset
User Guide
May 2005
CSR
Churchill House
Cambridge Business Park
Cowley Road
Cambridge CB4 0WZ
United Kingdom
Registered in England 3665875
Tel: +44 (0)1223 692000
Fax: +44 (0)1223 692001
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Introduction
1 Introduction
This document provides information on the Combined AV Headset application that accompanies BlueLab™ v3.2.
This document describes how to compile, download and run the application.
The application demonstrates to product developers the features of _äìÉ`çêÉ»PJjìäíáãÉÇá~. The application
is a starting point for product development programs. It is envisaged that product developers may define their
own Man Machine Interface (MMI) and add such features as battery monitoring to create a finished end-product.
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Target Audience
2 Target Audience
The target audience for this document is hardware and software developers using the Combined AV Headset
application that accompanies BlueLab v3.2 as a basis for their own product developments.
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Target Hardware
3 Target Hardware
The target hardware is CSR’s BlueCore3-Multimedia Development Board (DEV-PC-1307 Rev C). The user will
also need a suitable AV source capable of providing a Bluetooth® wireless technology-compliant SBC encoded
audio stream.
Note: CSR’s BlueCore3-Multimedia Development Board (DEV-PC-1307 Rev A) is not suitable to run this
application. The microphone input circuit does not work on this revision of the board.
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BlueLab Installation
4 BlueLab Installation
This chapter provides guidance on the installation of xIDE as supplied on the BlueLab CD-ROM.
4.1
Prerequisites
BlueLab xIDE should be installed on a PC running Windows 2000 or Windows XP.
CSR recommend that 150Mbytes of free disk space is available.
Note: A typical BlueLab installation requires 125Mbytes and each application built will need approximately
10Mbytes of additional space.
A minimum of Windows Power User privileges is required to install the software correctly.
Note: If you are unsure of your current level of privileges, please contact your system administrator.
New BlueLab installations can coexist with previous releases provided they are installed in different directories.
The use of a convention such as C:\BlueLabversion (eg C:\Bluelab3_2) to create the program folder will
avoid conflict between versions.
Note: Spaces in folder names of the directory path are not supported ie you should not try to install the software in a
directory which itself has spaces in its name or is contained within a folder that has spaces in its name eg
xIDE cannot be successfully installed in the Program Filesdirectory.
4.2
Installation procedure
CSR recommend that any applications running on the PC are closed before installing the BlueLab software.
1. Insert the Bluelab CD-ROM into the computer’s CD drive.
2. Right-click on the Windows Start menu and explore the CD-ROM.
The CD-ROM contains PDFs of the Bluelab documentation and the BlueLab executables.
3. Double-click on BlueLab-3.2.exefile to launch the Setup wizard, which will guide you through the
rest of the installation process.
4. Follow the on-screen instructions, clicking Next to continue.
For a first time installation, CSR recommend that the default settings are accepted.
5. When the VM and DSP libraries have been built, the PC the Setup Wizard will display the final setup
screen.
6. Click Finish to complete the installation.
If the default option to install the Serial Peripheral Interface (SPI) device driver was accepted, the PC
must be restarted to complete the installation.
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BlueLab Installation
4.2.1 MP3 Support
The Digital Signal Processor (DSP) libraries required to build the MP3 decoder must be obtained and installed
separately (please contact the support channel for details).
They contain MP3 technology which incorporates intellectual property owned by Thomson and/or Fraunhofer
Gesellschaft.
Supply of this product does not convey a license under the relevant intellectual property of Thomson and/or
Fraunhofer Gesellschaft nor imply any right to use this product in any finished end user or ready-to-use final
product. An independent license for such use is required. For details, please visit http://www.mp3licensing.com.
4.2.2 Wolfson external CODEC support
The Combined AV application shipped with BlueLab v3.2 includes support for the Wolfson (WM8731) CODEC.
To enable support for the Wolfson CODEC simply add WOLFSON_CODECto the list of Define symbols in the
Project Properties (as shown below) before building the application.
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Combined AV Headset Application
5 Combined AV Headset Application
When BlueLab v3.2 has been successfully installed, the Combined AV Headset application can be built and
executed using the application source code, shipped with BlueLab v3.2.
This section guides you step-by-step through the process of building and executing this application.
The application implements the following profiles:
!
!
!
!
Headset Profile
Handsfree Profile
Advanced Audio Distribution Profile
Audio/Video Remote Control Profile
This enables stereo music to be streamed to the headset with the ability to accept and make telephone calls via a
Bluetooth-enabled mobile phone.
5.1
Building the Combined Headset Application
Step 1: Connect BlueCore3-Multimedia Development Board
1. Connect your BlueCore3-Multimedia Development Board to your PC per the instructions supplied with
the development kit.
2. Ensure that you have connected the mini-USB connection and the SPI connection.
3. Turn on the board and ensure that the jumpers are configured as shown in Figure 5.1.
ON
ON
OFF
ON
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Combined AV Headset Application
Step 2: Start xIDE
Double-click on the xIDE icon on your desktop or from the Start / Programs menu.
Figure 5.2: Start xIDE
If previous application development work has been carried out on the BlueCore3-Multimedia Development Board,
CSR recommends that you restore the factory setting of the BlueCore chip.
A .psr file has been added to BlueLab v3.2 to simplify this process, for further information see section 5.3.
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Combined AV Headset Application
Step 3: Open sbc_decode Workspace
Select Project / Open Workspace, navigate to \BlueLab\apps\av_headset_hfpand select
sbc_decoder.xiw.
Figure 5.3: Open sbc_decode Workspace
Step 4: Optional – set streaming options
Three options are defined in the code to control the latency/robustness of the DSP buffer operation. By default
this is set to maximum robustness (STREAMING_MAX_RANGE_AND_ROBUSTNESS).
If this option is acceptable proceed to step 5.
Note: Only one option can be defined when building the project.
However, if a reduction in latency is required, two other options are available as defined by
STREAMING_STANDARD_LATENCYand STREAMING_LOW_LATENCY.
Note: The values controlled by these definitions can be changed in the code, if required
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Combined AV Headset Application
To implement one of these options add the required definition to the Define symbols field in the Project Properties
dialogue:
4.1. Select Project \ Properties
The Properties dialogue appears:
4.2. Delete the existing definition.
4.3. Enter the required definition to the Define symbols field
Step 5: Build sbc_decoder DSP Application
Select Build / Build or press F7 to build the sbc_decoder DSP application.
Note: If the MP3 add-on has been installed xIDE will not download the av_headset_hfpapplication if the
If the MP3 add-on has not been installed proceed as described in step 5.
Step 5: Open av_headset_hfp Workspace
Select Project / Open Workspace, navigate to \BlueLab\apps\av_headset_hfpand select
av_headset_hfp.xiw.
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Combined AV Headset Application
Step 6: Build av_headset_hfp Application
Select Build / Build menu or press F7 to build the av_headset_hfpVM application.
Figure 5.4: Build av_headset_hfp Application
Step 7: Download and Execute Combined AV Headset Application
Select Run from the Debug menu or press F5 to download and execute the application. The application image
(including the DSP code built in Step 3) will be downloaded to the BlueCore3-Multimedia development board
connected to your PC.
5.2
Building the Combined Headset Application with MP3 Support
The DSP libraries required to build the MP3 decoder must be obtained and installed separately (please contact
the support channel for details).They contain MP3 technology which incorporates intellectual property owned by
Thomson and/or Fraunhofer Gesellschaft.
Note: The Combined Headset application does not need to include the MP3 support code and can be built using
just the sbc_decoder.xiwas long as the MP3 add on executable has not been run.
Supply of this product does not convey a license under the relevant intellectual property of Thomson and/or
Fraunhofer Gesellschaft nor imply any right to use this product in any finished end user or ready-to-use final
product. An independent license for such use is required. For details, please visit http://www.mp3licensing.com.
Note: Once the MP3 add-on has been installed the av_headset_hfp.xiw will not download without the
mp3_decoder.xiwhaving been built.
Step 1: Installing the MP3 add-on
Having installed BlueLab v3.2, install BlueLab_3.2-release-mp3.exe(available via your usual support
channel).
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Combined AV Headset Application
Step 2: Building the MP3 decoder
Build the MP3 decoder application by opening the mp3_decode workspace and selecting build in xIDE. The
mp3_decodeworkspace can be built in exactly the same way as the sbc_decodeworkspace in section 5.1
Step 4.
Once the mp3_decodeapplication has been built go back to section 5.1 step 3 and continue with building the
av_headset_hfpapplication.
5.3
CVC echo cancellation and noise reduction software
To include CVC (Clear Voice Capture) echo cancellation and noise reduction simply add the define symbol
INCLUDE_CVCto the Project Properties / Define symbols field before building the av_headset_hfp.xiw
project.
Note: The CVC software is supplied for demonstration purposes only, is time limited and will become inactive after
processing data for five minutes.
The ParamMgr Utility can be used to fine tune the CVC code to optimise the performance based on the acoustic
characteristics of your product. Please see the ParamMgr User guide (CSR reference blab-ug-007Pa).
5.4
Restoring Factory Chip Settings
The factory settings can be restored using the PSTool application supplied with BlueLab v3.2.
To restore the factory default settings using PSTool:
1. Open the PSTool application.
Note: The PSTool.execan be found in the BlueLab install directory \tools\bin\PSTool.exe
The Choose transport dialog appears:
2. Select SPI BCCMD and LPT1 as the transport settings and click OK.
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Combined AV Headset Application
The PSTool application dialog appears:
3. Select Merge / File menu:
An ‘Open Persistent Store File’ dialog appears:
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Combined AV Headset Application
4. Browse to the location of the factory_restore.psrfile.
The file is located in the BlueLab install directory ……\tools\bin\factory_restore.psr.
5. Select the file and click Open.
The PSkeys that may result in unexpected chip behaviour, will be restored to their factory defaults.
Note: This may take a few minutes.
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Pairing
6 Pairing
The Combined AV Headset Application is now running on the BlueCore3-Multimedia Demonstration Board. To
stream audio and connect a mobile telephone to the headset, it needs to be paired.
Stop the application by pressing Shift-F5. This stops the application debugger and halts operation.
6.1
Pairing
To make the headset discoverable for 60 seconds, hold down VOL- and VOL+ and press the Reset button. The
blue LED will begin flashing more rapidly indicating the device is discoverable. In this state the headset can be
discovered by AV sources or a Bluetooth-enabled handset that supports the Headset or Handsfree profile.
6.1.1 Handset
With the Combined AV Headset in discoverable mode, pair the handset with the headset. The Pin Code is 8888.
Refer to the Instruction Manual supplied by the Handset manufacturer for further information on pairing.
6.1.2 CSR USB Multimedia Dongle
The USB Multimedia dongle is supplied as part of the BlueLab3-Multimedia Development Kit. Plug this dongle
into the USB port of your PC and start the avcontrol.exeapplication located in the following folder:
\BlueLab\tools\bin\
With the Combined AV Headset in discoverable mode, click on the Discover New Headphones button. The
Multimedia dongle will locate the headset, pair and connect to the headset.
Note: By default a device running the av_headset_hfpapplication has a PIN of 8888. However, Multimedia
dongles shipping with previous versions of BlueLab have a PIN of 4444.
If the devices fail to connect it is probable because the PINs are not matched.
The way to resolve this conflict is to change the entry in the av_headset_hfp.psrfile that sets the
PSKEY_FIXED_PIN. Change &035b = 0038 0038 0038 0038 to &035b = 0034 0034 0034 0034. When the
application is run in xIDE the PIN will then be set to 4444.
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Operation
7 Operation
7.1
Modes of Operation
The actions performed by the buttons change dynamically, depending on the current mode of operation.
7.1.1 HFP/HSP Modes
These modes of operation are active when there is no media stream active or whenever an HSP/HFP operation
is performed while a media stream is active. These operations suspend the audio stream until the operation is
complete. At this point, the media stream continues to play.
When initiating a Service Level Connection (SLC), the application will tries to connect using the HFP profile. If the
handset does not support HFP, it tries HSP and, if that fails, the attempt to connect is aborted.
When the handset is connecting to the headset it accepts the connection for whatever profile the handset
chooses.
It should be noted the CVC (Acoustic Echo Canceller and Noise Reduction) DSP algorithm can be compiled for
inclusion into the av_headset_hfpreference application. Refer to section 5.3 for compile instructions (default
is CVC disabled).
7.1.2 AV Mode
This mode of operation is active whenever a media stream is active.
7.2
Powering the Combined AV Headset On or Off
To power the headset on, hold down the Play/Pause (F1) button for at least two seconds.
To power the headset off, hold down the Stop (F2) button for at least four seconds. The headset will only
completely power down from that point when all current connections are closed, or a further timeout of five
seconds occurs.
7.3
Button Functionality
Table 7.1, Table 7.2 and Table 7.3 define the button functionality while the headset is in the different operation
modes.
Note:
!
!
Long press - Button held for more than two seconds
Short press - Button held for less than two seconds
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Operation
7.3.1 AV Mode
Table 7.1 shows how the buttons operate while the headset is in AV Mode. Long presses have no effect, except
for the Volume buttons.
Button
AV Mode
VOL+ Pressed
Vol Up
VOL+ Held (Acted on every 1s)
VOL- Pressed
Vol Up
Vol Down
VOL- Held (Acted on every 1s)
PLAY/PAUSE Pressed
STOP Pressed
Vol Down
Play/Pause music
Stop music
FORWARD Pressed
BACKWARD Pressed
Skip track forwards
Skip track backwards
Table 7.1: Button Functionality in AV Mode
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Operation
7.3.2 HFP + AV
Table 7.2 shows how the buttons operate while the headset is in HFP Mode. It shows how the buttons operate
depending on the state of the headset.
Table entries in italic describe the button functionality assuming an active AV stream.
Incoming
Call
Active
Call
Outgoing
Call
Button/State
Init
Ready
Connecting Connected
If there is no AV source connected replace avrcp calls with the non-italic calls
Play/Pause Play/Pause
Play/Pause
Play/Pause
PLAY/PAUSE
Short Press
Answer
Call
Transfer
Audio
X
X
X
X
X
X
Voice
Recog.
Enable
PLAY/PAUSE
Long Press
Answer
Call
Transfer
Audio
X
X
X
Stop
Stop
Stop
Stop
STOP Short
Press
Hang up
Call
Hang up
Call
Reject Call
Reject Call
Volume up
Volume up
X
X
X
X
Last
number
redial
Last
number
redial
STOP Long
Press
Hang up
Call
Hang up
Call
X
X
Volume up Volume up
Volume up
Volume up
Vol+ Short
Press
Volume up
Volume up
Volume up
Volume up
X
X
X
Volume up
Vol+ Held
(Acted on
every 1s)
Volume up Volume up
Volume up
Volume up
X
X
X
Volume up
Volume
down
Volume
down
Volume
down
Volume
down
Vol- Short
Press
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Vol- Held
(Acted on
every 1s)
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Volume
down
Forward
(Long/Short)
Press
Forward
Forward
Forward
Forward
X
X
X
X
X
X
X
X
X
x
Backward
(Long/Short)
Press
Backward
Backward
Backward
Backward
CVC
Mode*
X
X
X
X
Table 7.2: Button Functionality in HFP Mode
CVC Mode*
If CVC is compiled in the application, with each short button press the software toggles between
HF, NR and PSTHRGH modes. This button is only operational if a connection exists and the
device is not muted. When operational and the Backward button is pressed, the next mode will
be selected and a tone will be played to the loudspeaker. The tone will identify the currently
operating mode. The following indicates the tone mapping.
1 Beep, HF mode:
2 Beeps, NR mode:
Hands-Free is the combination of an AEC (Acoustic Echo Canceller with
microphone Noise Reduction). Default mode for CVC.
Noise Reduction to the microphone send-out signal.
3 Beeps, PSTHRGH mode: Pass through mode where the audio is routed through the Kalimba, disabling
Hands-free, effectively bypassing any audio processing.
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Operation
7.3.3 HSP + AV
Table 7.3 shows how the buttons operate while the headset is in HSP Mode. It shows how the buttons operate
depending upon the state of the headset.
Table entries in italic describe the button functionality assuming an active AV stream.
Incoming
Call
Active
Call
Outgoing
Call
Button/state
Init
Ready
Connecting Connected
If there is no AV source connected replace avrcp calls with the non-italic calls
Play/Pause Play/Pause Play/Pause
Play/Pause
PLAY/PAUSE
Short Press
Button
press
Button
press
Button
press
X
X
X
X
PLAY/PAUSE
Long Press
Button
press
Button
press
Button
press
Button
press
Button
press
X
X
Stop
Stop
Stop
Stop
STOP Short
Press
X
X
X
End Call
X
X
X
X
X
X
X
STOP Long
Press
X
X
X
X
Volume up Volume up
Volume up
Volume up
Vol+ Short
Press
Volume
up
Volume up
X
X
X
X
Vol+ Held
(Acted on
every 1s)
Volume up Volume up
Volume up
Volume up
Volume
up
X
X
Volume up
X
X
X
X
Volume
down
Volume
down
Volume
down
Volume
down
Vol- Short
Press
Volume
down
Volume
down
X
X
X
X
Volume
down
Volume
down
Volume
down
Volume
down
Vol- Held
(Acted on
every 1s)
Volume
down
Volume
down
X
X
X
X
X
Forward
(Long/Short)
Press
Forward
Forward
Forward
Forward
X
X
X
X
X
X
X
X
X
Backward
(Long/Short)
Press
x
Backward
Backward
Backward
Backward
CVC
Mode*
X
X
X
X
Table 7.3: Button Functionality in HSP Mode
CVC Mode*
If CVC is compiled in the application, with each short button press the software toggles between
HF, NR and PSTHRGH modes. This button is only operational if a connection exists and the
device is not muted. When operational and the Backward button is pressed, the next mode will
be selected and a tone will be played to the loudspeaker. The tone will identify the currently
operating mode. The following indicates the tone mapping.
1 Beep, HF mode:
2 Beeps, NR mode:
Hands-Free is the combination of an AEC (Acoustic Echo Canceller with
microphone Noise Reduction). Default mode for CVC.
Noise Reduction to the microphone send-out signal.
3 Beeps, PSTHRGH mode: Pass through mode where the audio is routed through the Kalimba, disabling
Hands-free, effectively bypassing any audio processing.
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Decoder behaviour settings
8 Decoder behaviour settings
The codeclibrary contains a range of settings that control the decoding behaviour of the DSP.
The values defined for the variable $decoder_codec_stream_struccontrol the user experience,
especially when the device is at the extreme limits of Bluetooth range.
The parameters themselves are defined in the $decoder_codec_stream_strucsource code found in
C:\BlueLab\apps\av_headset_hfp\codec_decoder.asm. The numerical values can be simply
manipulated in the source code to optimise the required.
Note: The decoder project must be rebuilt in xIDE when any of these parameter values is changed in the source code.
See the xIDE on-line help (DSP Reference guide/File List/codec/stream_decode) for further explanation.
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Document References
Document References
Document
Reference
BlueLab v3.2 Combined AV Headset Release Note
BlueLab v3.2 Release Note
blab-srn-002Pa
blab-srn-001Pa
Blab-ug-007Pa
BlueLab v3.2 ParamMgr User Guide (for CVC only)
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Document References
Terms and Definitions
BlueCore™
BlueLab™
Bluetooth®
CSR
Group term for CSR’s range of Bluetooth wireless technology chips
CSR’s development toolset for building applications to run in the firmware’s VM
Set of technologies providing audio and data transfer over short-range radio connections
Cambridge Silicon Radio
Clear Voice Capture DSP audio processing performing AEC and NR
Digital Signal Processor
CVC™
DSP
HFP
Handsfree Profile
HSP
Headset Profile
MMI
Man Machine Interface
SBC
Sub-band Coding
SLC
Service Level Connection
Serial Peripheral Interface
Universal Serial Bus
SPI
USB
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Document References
Document History
Revision
Date
Reason for Change
a
28 MAY 05 Original publication of this document (CSR reference blab-ug-005Pa)
BlueLab v3.2™
Combined AV Headset User Guide
blab-ug-005Pa
May 2005
Unless otherwise stated, words and logos marked with ™ or ® are trademarks registered or owned by Cambridge
Silicon Radio Limited or its affiliates. Bluetooth® and the Bluetooth logos are trademarks owned by Bluetooth SIG,
Inc. and licensed to CSR. Other products, services and names used in this document may have been
trademarked by their respective owners.
The publication of this information does not imply that any license is granted under any patent or other rights
owned by Cambridge Silicon Radio Limited.
CSR reserves the right to make technical changes to its products as part of its development programme.
While every care has been taken to ensure the accuracy of the contents of this document, CSR cannot accept
responsibility for any errors.
CSR’s products are not authorised for use in life-support or safety-critical applications.
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