Wistron NeWeb SWA16 Wireless Audio Module User Manual

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Document ID	2412604
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Date Submitted	2014-10-07 00:00:00
Date Available	2014-10-08 00:00:00
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Document Lastmod	2017-10-20 23:29:08
Document Title	User Manual
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Document Author:	vsell

SWA16-TX/RX
Module Datasheet
Mono/Stereo Wireless Audio System, based on the Avnera AV6100 IC
General Description
Features
The SWA16 module family of products
represents a new level of system integration
offering customers fast time to market with a
point-to-point mono, or stereo, wireless
connection. These modules are optimized for
low-cost, high-quality and ease-of-use.

The module incorporates Avnera’s proprietary
wireless audio protocol, designed from the
ground up specifically for audio. It features low
fixed latency, uncompressed CD quality mono
or stereo audio, superior interference immunity
and industry leading coexistence with WiFi –
even at close proximity to a WiFi device.
Audio Interfaces


I2S Digital Input / Output interface with
>94dB end-to-end digital audio path
Wireless Range

> 15m Non Line Of Sight (NLOS) range

> 50m Line Of Sight (LOS) range

Frequency range: 2.4 GHz ISM band,
continuous dynamic frequency selection

Forward error correction coding, error
detection, and audio-specific error
concealment

Dual printed PCB diversity antennas for
multipath and fading mitigation

Auto-search/synch and dynamic channel
selection

Low and fixed latency

24 pin FPC or pin header connector
The module measures just 26 x 60 x 3.5 mm
and is provided with a 24 pin FPC connector
or pin header for connection to the system
board.

Sample rate converter: Support for 32 96kHz input sample rates

Over-the-air firmware update capability
The module is certified to FCC and CE
standards.

Customizable firmware for simple, low-cost,
sub-woofer amplifier implementations

General purpose over-the-air (OTA) serial
interface:
The SWA16 module integrates all features
necessary to complete a wireless stereo ro
mono link, including AV6100 Wireless Audio
Chip, printed diversity antenna, flash memory,
interface
connector
and
all
passive
components. Just supply 5 Volts and an I2S
interface and you are ready to create a
wireless audio link.
Applications




Wireless Subwoofers
Stereo Wireless Rear Speakers
Soundbar / Audio Video Receiver / BluRay
Mono/Stereo Audio Channel Transmission

11 kbps, bi-directional, full duplex

Support for amplifier control data, metadata, and remote control commands
Ordering Options
SWA16-TX: Transmit module with digital audio
input
SWA16- RX: Receive module with digital
audio output
We use diff. label colors to
distinguish between TX and RX.
CONFIDENTIAL | PROVIDED UNDER NDA
SWA16 Module Datasheet
Rev 1.0
SWA16 Functional
be achieved by using the low-latency 44.4KSps
over the air sample rate.
The SWA16 module is available in 2 variations;
digital input transmitter module or digital output
receiver module. There is a separate I2S port for
digital audio input and output functions and either
of these can be configured to be a master or a
slave – only the input or output port can be active
at any time. In addition, MCLK can be generated
from the module, or input to the module as
required by the system application.
1.1
A simple low cost implementation of a sub-woofer
product design is shown in Figure 1. The sub
amplifier consists of a PWM chip plus an output
stage device, but no external MCU is required as
the SWA16 RX module performs the control
function using the I2C master communication port
in conjunction with multiple GPIOs. +5V power and
an optional reset signal are supplied to the SWA16
RX module and I2C slave communication can be
used to control the module if required. Several
GPIOs can be used to drive LEDs, or to connect to
UI buttons. Typically 2 LEDs may be used and 1
button for pairing purposes. Another button could
be used, for example, to implement a “bass
enhance” feature. Another GPIO can be used to
control the main power supply for the unit. The
SWA16 RX module will remain always powered up
but a GPIO control line is used to enable/disable
the higher voltage rail for the amplifier output
circuitry. If the wireless link is lost (when the sound
bar, or SWA16 TX module is powered down) the
SWA16 RX module can, after a timeout period,
power down the amplifier section to conserve
power and to help meet energy start requirements.
The hardware for the audio input (transmit) and
audio output (receive) versions of the module is
identical and only the firmware loaded on the
module determines its function.
The highly integrated nature of the AV6100
transceiver IC results in few external components
being required for the SWA16 module design. 2
Printed antennas are used to achieve increased
range, and to offer diversity, and the simple RF
path consists only of the antennas, associated
tuning components, the RF switch and a balun
connected to the AV6100 IC. A 16MHz crystal
generates the AV6100 system clock signal used
as the basis for all RF and digital audio signals. In
addition, a 2Mb flash memory stores the factory
based firmware, as well as firmware upgrade
images and configuration parameters. The module
firmware enables upgrades to be performed by the
I2C slave interface or over-the-air. The module
can be controlled from an external host device via
the I2C interface. The I2C master port allows the
module to control other system audio devices such
as a sub-woofer amplifier system without having to
add another MCU to the product design. Up to a
maximum of 17 GPIOs are supported with the
SWA16 module including I2C and I2S signals.
This large number of GPIOs can be leveraged to
implement low cost sub-woofer designs as
outlined below.
The I2C master port from the SWA16 RX module
can communicate, control, and initialize external
audio ICs such as the PWM chip in this example.
Other GPIOs can be used to detect fault
conditions (over temperature etc) and notify the
module. The audio is routed from the SWA16 RX
module to the amplifier circuit with the I2S output
port which can be configured as either a master or
a slave as required. MCLK can also be generated
from the SWA RX module as a ~12.288MHz clock
if required.
The SWA16 module offers a standard and lowlatency firmware with different over the air sample
rate. While the standard 22.2KSps over the air
sample rate optimizes audio quality and WiFi coexistence performance; Lower audio latency can
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
Typical Sub-Woofer
Implementation
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
Figure 1: SWA16 RX Module Simple Sub-Woofer Implementation
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
SWA16 Module Connections
1.2
Signal Type
Description
+5V Supply
Single +5V +/10% supply rail to the module
Reset
Active low reset input. This pin is driven from an open collector/drain device such
that it can pull to ground for the active reset state but, when released, must go to
a high impedance state. If this input is driven high the internal reset circuit on the
module will not operate correctly.
I2S In Port
The I2S input port can be configured as a master or slave. Consequently BCLK
and LRCK can be either inputs or outputs. In addition, MCLK can be generated
by the module on pin 16, or used as an input. Typically, as the AV6100 IC
contains a sample rate converter, MCLK is not required to be supplied to the
module when it is an I2S slave. CMOS 3.3 logic levels are used for all I2S
signals.
I2S Out Port
The I2S output port can be configured as a master or slave. Consequently BCLK
and LRCK can be either inputs or outputs. In addition, MCLK can be generated
by the module on pin 16, or used as an input. Typically, as the AV6100 IC
contains a sample rate converter, MCLK is not required to be supplied to the
module when it is an I2S slave. CMOS 3.3 logic levels are used for all I2S
signals.
I2C Slave Port
The I2C slave port is used for external host communication and during module
test. It is assumed that external pull up resistors are connected at the I2C master
communicating with the module.
I2C Master Port
The I2C master port is used to communicate with external audio devices such as
a sub-woofer amplifier. The SDA and SCL signal lines have pull ups internal to
the module.
GPIOs
3.3V CMOS logic level GPIOs available to connect to other devices, or to use as
UI supporting GPIOs for LED and button support. All supported GPIOs can be
configured as inputs or outputs.
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
SWA16 Connector Information
No
Pin Name
I/O
AV6100
Pin Description
SWA16 TX
Module
SWA16 RX
Module
VDD
+5V +/- 10%
VDD
+5V +/- 10%
GPIO
I/O
GPIO13 pin 28
Function defined by
firmware application.
GPIO
ADOUT0 RX =
output
GPIO
I/O
GPIO18 pin 43
Function defined by
firmware application.
GPIO
GPIO
GPIO
I/O
GPIO19 pin 37
Function defined by
firmware application.
GPIO
GPIO
Reset
Pin 24
Driven from open
drain external source.
Can be left open.
Reset
Reset
I2C_SCL_S /
S_MISO
I/O
GPIO5
pin 44
I2C slave or SPI slave
port
I2C_SCL_S
LED RED,
firmware upgrade
I2C_SDA_S /
S_MOSI
I/O
GPIO4
pin 45
I2C slave or SPI slave
port
I2C_SDA_S
LED BLUE,
firmware upgrade
I2C_SCL_M
GPIO22 pin 41
I2C master port or
GPIO
GPIO
I2C_SCL_M
10
I2C_SDA_M
I/O
GPIO21 pin 42
I2C master port or
GPIO
GPIO
I2C_SDA_M
11
S_SCLK
GPIO3
SPI slave port or
GPIO
GPIO
GPIO
12
GND
Ground
GND
GND
13
BCK1
I/O
GPIO15 pin 26
I2S port
BCLK1, TX
module = input
POWER
14
WCLK1
I/O
GPIO16 pin 25
I2S port
LRCK1, TX
module
GPIO
15
S_SSB
GPIO2
pin 47
SPI slave port or
GPIO
GPIO
GPIO
16
MCLK
I/O
GPIO10 pin 31
I2S port or GPIO
GPIO/MCLK
RX = 12.288MHz
output
17
ADIN1
I/O
GPIO14 pin 27
I2S port
ADIN1 TX =
input
GPIO
18
M_SSB/GPIO17
GPIO6 pin 36/GPIO17 pin 48
SPI master port
GPIO
GPIO
19
N.C
GPIO7pin 35/GPIO1 pin 1
SPI master port
NC
NC
20
N.C
GPIO8
pin 34
SPI master port
NC
NC
21
N.C
GPIO9
pin 33
SPI master port
NC
NC
22
GPIO
I/O
GPIO11 pin 30
Function defined by
firmware application.
LED1
BCLK0
23
GPIO
I/O
GPIO12 pin 29
Function defined by
firmware application.
LED2
WCLK0
24
GND
pin 46
Ground
Table 1: SWA16 Connector Information
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
Electrical Specifications
3.1
Absolute Maximum Ratings
Absolute Maximum Ratings (AMR) are stress ratings only. AMR corresponds to the maximum value that can be applied without leading
to instantaneous or very short-term unrecoverable hard failure (destructive breakdown). Stresses beyond those listed under AMR may
cause permanent damage to the device.
Functional operation of the device at these or any other conditions beyond those indicated under “Recommended Operating Range” is
not implied. Exposure to absolute-maximum-rated conditions for extended periods may adversely affect device reliability.
Device functional operating limits and guaranteed performance specifications are given under Electrical Characteristics at the test
conditions specified.
CONDITION
MIN
MAX
+5V Supply Voltage Input
-0.3V
6.0V
Input Voltage Range – Digital
Inputs
-0.3V
3.6V
Operating Temperature
-10ºC
+70ºC
-20ºC
+80ºC
-6kV
+6kV
Storage Temperature
Static Discharge Voltage
Notes:
Note 1: ±6kV @ bottom test pads, 150pF/330ohms discharge per IEC/EN61000-4-2
3.2
Recommended Operating Range
PARAMETER
MIN
TYP
MAX
UNIT
+5V Supply pin voltage
4.5
5.0
5.5
60
ºC
Ambient Temperature (TA)
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
CONFIDENTIAL
SWA16 Module Datasheet
3.3
Rev 1.0
Electrical Characteristics
Test Conditions: TA=+25ºC, Vsupply=+5.0V
Table 2; SWA16 RF Transceiver Characteristics
PARAMETER
CONDITIONS
RF Frequency Range
TX Output Power
MIN
TYP
2405.35
MAX
UNIT
2477.35
MHz
1.5
RX Sensitivity
-91
dBm
-85
-88
dBm
Range (NLOS)
15
Range (LOS)
50
Note 1: Measured with the SWA16 Printed antenna disabled and test RF connector added.
Note 2: Measured with the SWA16 Printed antenna disabled and test RF connector added. Sensitivity is defined as the
onset of 0.2% BLER Clock Error Rate.
Table 3; SWA16 Audio Characteristics
PARAMETER
Frequency Response
Gain Flatness
CONDITIONS
SNR
MIN
TYP
MAX
UNIT
10K
Hz
20
0dB Input / Output Gain
I2S Input / Output
THD+N
±0.2
dB
94
dB
94
dB
Note 1: 16 bit audio, 22.2KSps over-the-air sample rate firmware build
Note 2: 16 bit audio, 22.2KSps over-the-air sample rate firmware build – 10KHz frequency response
Table 4; SWA16 Audio Latency Characteristics
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNIT
22.2KSps OTA Sample Latency
Standard Firmware
17
ms
44.4KSps OTA Sample Latency
Standard Firmware
14
ms
22.2KSps OTA Sample Latency
Low Latency Firmware
13.5
ms
44.4KSps OTA Sample Latency
Low Latency Firmware
8.5
ms
Table 5; SWA16 Current Characteristics
PARAMETER
CONDITIONS
TX Module Configuration
TX Module Configuration
TX Module Configuration
Linked
Searching
FCC TX
RX Module Configuration
Linked
RX Module Configuration
Searching
RX Module Configuration
RX Module Configuration
TYP
MAX
UNIT
35
mA
22
mA
63
mA
35
mA
63
mA
16
mA
71
mA
Standby
FCC TX
MIN
Note 1: Specification represents an average current with the I2S clocks running. Peak current is ~ 2x the average.
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
Note 2: Searching is the average current where the TX module is not linked but is attempting to find a RX module to link
with. Peak current is ~70mA.
Note 3: Continuous transmit mode for testing purposes. Peak current ~80mA.
Note 4: Specification represents an average current with the I2S clocks running. Peak current is ~ 2x the average.
Note 5: Searching is where the RX module is not linked but is attempting to find a TX module to link with. Peak current is ~
80mA.
Note 6:. After the RX module has not been linked for > 30 seconds it will go to a duty cycling standby state reflected by this
specification. Peak current is ~ 80mA.
Note 7: Continuous transmit mode for testing purposes. Peak current ~80mA.
3.4
I2S Communication Interface Timing
I2S bit clock
TR<50n
TLo<0.4T
THi<0.4T
VH=2.4V
VL=0.4V
TF<50n
TSu>25n
THd>25n
I2S data input
I2S word clock input
-25n < Tod < 25n
I2S data output
I2S word clock output
Table 6; SWA16 I2S Timing
VL
VH
TLo
THi
low voltage level
high voltage level
clock period
clock low period
clock high period
TR
TF
TSu
THd
TOd
rise time
fall time
setup time
hold time
output delay
bit clocks/word clock
MIN
-0.3V
2.4V
0.4T
0.4T
25n
25n
-25n
TYP
0.0V
3.3V
325.5n
MAX
0.4V
3.6V
0.6T
0.6T
50n
50n
64
25n
UNIT
NOTES
Note 1
Note 1
1/3.072MHz
I2S protocol is “I2S Justified” as shown below.
I2S bit clock
I2S word clock
I2S data
MSB
WORD n-1
RIGHT CHANNEL
LSB
WORD n
LEFT CHANNEL
MSB
WORD n+1
RIGHT CHANNEL
Note 1: The timing specified for the rise and fall times represents the edge rates on the module itself. The rise
and fall times of the I2S signals are determined by ESD/EMI mitigation components on the modules, as well
as external loading, and will be higher than the specified numbers
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
CONFIDENTIAL
SWA16 Module Datasheet
3.5
Rev 1.0
I2C Master/Slave Communication Interface Timing (S_SCL, S_SDA)
The SWA16 has both I2C slave and master interfaces available with their respective pins S_SCL and S_SDA.
The interfaces operate in I2C fast-mode and can receive and transmit at up to 400 kbit/s.
Bytes are 8 bits long and are transferred with the most significant bit (MSB) first. Each byte has to be followed
by an acknowledge bit. The SWA16 will apply clock-stopping (by holding the clock line S_SCL LOW to force
the master into a wait state) if necessary due to internal high-priority tasks.
The slave/master interface can be used both for writing (e.g. sending commands) or reading (e.g. requesting
status).
The SWA16 slave interface responds to the 7-bit slave address 1000000 (0x40) as shown in Figure 2 below.
Figure 2: First Byte After the START Procedure
ELECTRICAL SPECIFICATIONS AND TIMING
Table 6; Characteristics of the S_SDA and S_SCL I/Os
PARAMETER
SYMBOL
LOW level input voltage
HIGH level input voltage
LOW level output voltage (open drain or
open collector) at 1 mA sink current:
Output fall time from VIHmin to VILmax with
a bus capacitance from 10 pF to 400 pF
Pulse width of spikes which must be
suppressed by the input filter
S_SCL clock frequency
LOW period of the S_SCL clock
HIGH period of the S_SCL clock
Data hold time
Data set-up time
VIL
VIH
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
FAST-MODE
MIN.
MAX.
0.8
0.3
2.0
3.6
UNIT
VOL
0.4
tof
250
ns
tSP
50
ns
1.3
0.6
100
400
–
–
–
–
kHz
s
s
ns
ns
fSCL
tLOW
tHIGH
tHD;DAT
tSU;DAT
100
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
Figure 3: Definition of Timing for F/S-Mode Devices on the I C-Bus
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
10
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
Ordering Information
Table 7: SWA16 Module Ordering Information
Module Part
Number
SWA16
Option
Code
-TX
SWA16
-RX
Description
Digital Input , FPC Connector, integrated printed
antennas
Digital Output, FPC Connector, integrated printed
antennas
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
11
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
FCC Statement:
Federal Communication Commission Interference Statement
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to
Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses and can radiate radio frequency
energy and, if not installed and used in accordance with the instructions, may cause harmful interference to
radio communications. However, there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or television reception, which can be
determined by turning the equipment off and on, the user is encouraged to try to correct the interference by
one of the following measures:
● Reorient or relocate the receiving antenna.
● Increase the separation between the equipment and receiver.
● Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
● Consult the dealer or an experienced radio/TV technician for help.
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1)
This device may not cause harmful interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
This device and its antenna(s) must not be co-located with any other transmitters except in
accordance with FCC multi-transmitter product procedures.
Refering to the multi-transmitter policy, multiple-transmitter(s) and module(s) can be operated
simultaneously without C2P.
IMPORTANT NOTE:
This module is intended for OEM integrator. The OEM integrator is responsible for the compliance
to all the rules that apply to the product into which this certified RF module is integrated.
Additional testing and certification may be necessary when multiple modules are used.
20cm minimum distance has to be able to be maintained between the antenna and the users for the host this
module is integrated into. Under such configuration, the FCC radiation exposure limits set forth for an
population/uncontrolled environment can be satisfied.
Any changes or modifications not expressly approved by the manufacturer could void the user's authority to
operate this equipment.
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
12
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
USERS MANUAL OF THE END PRODUCT:
In the users manual of the end product, the end user has to be informed to keep at least 20cm separation with
the antenna while this end product is installed and operated. The end user has to be informed that the FCC
radio-frequency exposure guidelines for an uncontrolled environment can be satisfied. The end user has to
also be informed that any changes or modifications not expressly approved by the manufacturer could void
the user's authority to operate this equipment. If the size of the end product is smaller than 8x10cm, then
additional FCC part 15.19 statement is required to be available in the users manual: This device complies
with Part 15 of FCC rules. Operation is subject to the following two conditions: (1) this device may not cause
harmful interference and (2) this device must accept any interference received, including interference that
may cause undesired operation.
LABEL OF THE END PRODUCT:
The final end product must be labeled in a visible area with the following " Contains TX FCC ID: NKR-SWA16
". If the size of the end product is larger than 8x10cm, then the following FCC part 15.19 statement has to also
be available on the label: This device complies with Part 15 of FCC rules. Operation is subject to the
following two conditions: (1) this device may not cause harmful interference and (2) this device must accept
any interference received, including interference that may cause undesired operation.
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
13
CONFIDENTIAL
SWA16 Module Datasheet
Rev 1.0
IC Statement:
This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the
following two conditions: (1) this device may not cause interference, and (2) this device must accept any
interference, including interference that may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio
exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit
pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage
radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
This device and its antenna(s) must not be co-located with any other transmitters except in
accordance with IC multi-transmitter product procedures.
Refering to the multi-transmitter policy, multiple-transmitter(s) and module(s) can be operated
simultaneously without reassessment permissive change.
Cet appareil et son antenne (s) ne doit pas être co-localisés ou fonctionnement en association avec
une autre antenne ou transmetteur.
IMPORTANT NOTE:
IC Radiation Exposure Statement:
This equipment complies with IC RSS-102 radiation exposure limits set forth for an uncontrolled environment.
This equipment should be installed and operated with minimum distance 20cm between the radiator & your
body.
Cet équipement est conforme aux limites d'exposition aux rayonnements IC établies pour un
environnement non contrôlé. Cet équipement doit être installé et utilisé avec un minimum de 20 cm
de distance entre la source de rayonnement et votre corps.
This module is intended for OEM integrator. The OEM integrator is still responsible for the IC compliance
requirement of the end product, which integrates this module.
USERS MANUAL OF THE END PRODUCT:
In the users manual of the end product, the end user has to be informed to keep at least 20cm separation with
the antenna while this end product is installed and operated. The end user has to be informed that the IC
radio-frequency exposure guidelines for an uncontrolled environment can be satisfied. The end user has to
also be informed that any changes or modifications not expressly approved by the manufacturer could void
the user's authority to operate this equipment. Operation is subject to the following two conditions: (1) this
device may not cause harmful interference and (2) this device must accept any interference received,
including interference that may cause undesired operation.
LABEL OF THE END PRODUCT:
The final end product must be labeled in a visible area with the following " Contains TX IC : 4441A-SWA16 ".
CONTENTS SUBJECT TO CHANGE WITHOUT NOTICE
14
CONFIDENTIAL

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