u blox WIBEAR-SF-UAP The Lesswire industrial universal 802.11b/g WLAN + Bluetooth 2.1 module is targeted for integration into different products of OEM partners enabling them to communicate over WLAN and Bluetooth connection. User Manual WiBear SF engl v0 52

u-blox AG The Lesswire industrial universal 802.11b/g WLAN + Bluetooth 2.1 module is targeted for integration into different products of OEM partners enabling them to communicate over WLAN and Bluetooth connection. WiBear SF engl v0 52

AN00K73535 UserMan

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Mirror Download [FCC.gov]u blox WIBEAR-SF-UAP The Lesswire industrial universal 802.11b/g WLAN + Bluetooth 2.1 module is targeted for integration into different products of OEM partners enabling them to communicate over WLAN and Bluetooth connection. User Manual WiBear SF engl v0 52
Document ID1381783
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Document DescriptionAN00K73535 UserMan
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Date Submitted2010-11-25 00:00:00
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Document Author: richter

April 2010
Preliminary! Subject to technical modifications!
Universal embedded WLAN solution for OEM customers
WiBear-SF - Industrial universal WLAN front end module (IEEE 802.11b/g)
The lesswire industrial universal WiBear-SF- WLAN module is a reliable, automotive grade WLAN front
end module. The module is developed for use in industrial temperature range from -40°C to +85°C.
The WiBear-SF WLAN module features the following key benefits:
• Extremely small and efficient footprint which covers 20 x 20 mm of size
• Simultaneous use of two different leading wireless standards, the IEEE 802.11b,g WLAN and a full
featured Bluetooth IEEE802.15.1 class 2 transceiver.
• Micro Access Point feature for building WLAN networks with the maximum number of 8 clients
The WiBear-SF WLAN module may be integrated in two ways into customer solutions:
• Deploy the processor of the existing design as host controller: The WLAN-SF module is connected to the customer processor
by SDIO or G-SPI interfaces. The WLAN stack will run on processor of the existing design.
• Add the WiBear-SF WLAN module together with a host controller to an existing design. As an example, the host controller may
be a based on ARM9 core. A corresponding reference design is available on request.
The host controller selection can consider additional needed interfaces like Ethernet, USB, CAN, or UART. The WiBear-SF
WLAN module is designed for industrial solutions in order to connect with already existing WLAN networks on shop floor.
Furthermore, an embedded Linux-based Web Server reference application is available to easily implement user-interfaces for
WLAN module configuration. The Bluetooth interface supports Bluetooth 2.1 and Enhanced Data Rate (EDR) operation. The
WiBear-SF complies with Bluetooth stacks that support SDIO or UART HCI protocol.
The WiBear-SF module is a compact one-side assembled design and can be soldered (SMD) onto a customer boards. The
availability of the module is guaranteed for minimum of 6 years
The universal WLAN module saves time and reduces costs. OEM customers can concentrate on their core competence while
adopting this easy to use WLAN module that can enable many wireless applications. For larger quantity orders lesswire can also
provide module design-ins. Driver porting to other operating systems can be offered by lesswire.
Description of technical parameters
- WLAN
• IEEE802.11b Output power:
typ. +18 dBm
Sensitivity: @ 1Mbps
typ. -96 dBm
Sensitivity: @11Mbps
typ. -89dBm
• IEEE802.11g Output power:
typ. +15 dBm
Sensitivity: @ 6Mbps
typ. -90dBm
Sensitivity: @12Mbps
typ. -88dBm
Sensitivity: @54Mbps
typ. -73dBm
- Bluetooth
• IEEE802.15.1 Output power:
typ. +8dBm
Sensitivity EDR
typ. -75dBm
Sensitivity BDR
typ. -86dBm
Bluetooth device class 2: typ. range ~10-20 m
Frequency range
2402MHz to 2480MHz
Number of channels
79
Modulation
FHSS
- Reference Designs
• SDIO / G-SPI Evaluation Board
• Reference design ARM9, 10 Mbps Ethernet, CAN,
USB, and Linux 2.6.28 including Linux BSP, drivers
Interfaces
• SDIO
• G-SPI
• Bluetooth coexistence
• UART
Driver Support
• Linux 2.6.x
• Windows CE, Windows XP/Vista
Bluetooth stack support
• Bluetooth 2.1 Basic Data Rate (BDR) and Enhanced
Data Rate (EDR) operation
• Bluetooth stacks that support UART HCI protocol
-1lesswire AG│Im Technologiepark 1│15236 Frankfurt (Oder)│Germany│url: www.lesswire.com
Tel.: 0700 L E S S W I R E (53 77 94 73) │Fax +49 (0) 335 56 56 - 999│e-mail: sales@lesswire.com
Description of technical parameters (continuation)
RF properties achieved by
• Integrated additional PA / LNA 2.4GHz
• Integrated reference high precision frequency generator
WLAN/Bluetooth coexistence feature
• Hardware based coexistence support by 2-wire, 3-wire,
or 4-wire interfaces
Two firmware (FW) options
• WLAN STA infrastructure and ad-hoc mode including support
for parallel Bluetooth operation; Bluetooth may be disabled
• WLAN µAP mode supports up to 8 WLAN stations, Bluetooth
may be disabled in µAP mode
Product options
• WLAN / Bluetooth; commercial operating temperature range (default)
• WLAN / Bluetooth; industrial operating temperature range
• WLAN; commercial temperature range
• WLAN; industrial temperature range
Profile view
Antenna
• WLAN STA mode
ANT1 - WLAN and Bluetooth, ANT2 - not used
• WLAN µAP mode
ANT1 – WLAN, ANT2 - Bluetooth
User interface
• Embedded Linux based Web Server as configuration interface
on separated ARM9 host as reference application
Configuration/Programming
• Configuration over WLAN or wired interfaces based on the
host controller
• External FW storage on host
• Fast FW download at power-on
Digital interfaces to host controller
• 4-bit SDIO interface (default); Optional SDIO 1-bit and SDIOSPI host controller interfaces
• Optional G-SPI in slave mode for synchronous communication
with communication processor
• Bluetooth may be used over SDIO or UART HCI interfaces.
Technical data
WLAN standards:
Data transfer rate:
Frequency range:
Protocols:
Host interfaces:
Antenna:
Mounting technology:
Management:
Modulation:
IEEE 802.11b, g
IEEE 802.11i, e, j, h, s
(IEEE802.11-2007)
IEEE 802.11b: 11, 5.5, 2, 1 Mbps
IEEE802.11g: 54, 48, 36, 24, 18,
12, 9, 6 Mbps
2.4 – 2.497 GHz (ISM Band)
Enables Ethernet NIC on host
SDIO (default),
G- SPI alternatively
SDIO/UART for Bluetooth
QFN antennae pads
SMD soldering
According to IEEE802.11
OFDM, DSSS/CCK
Power supply:
Operating Temperature
Storage temperature
Firmware:
Security encryption:
Dimensions (LxBxH):
Scope of delivery:
-2lesswire AG│Im Technologiepark 1│15236 Frankfurt (Oder)│Germany│url: www.lesswire.com
Tel.: 0700 L E S S W I R E (53 77 94 73) │Fax +49 (0) 335 56 56 - 999│e-mail: sales@lesswire.com
Vcc 3.3V and 1.8V
Industrial temperature option
-40°C to +85°C
Commercial temperature option
0°C to +70°C
-55°C to +105°C
At system power-on firmware is
downloaded from host..
WEP 64/128 Bit-Key,
WPA (TKIP, AES),
WPA2 (CCMP, AES)
20mm x 20mm x 2.5mm
Embedded WLAN module
45 PIN QFN Host Interface
Power Supply
PIN
12, 13, 26 GND
3V3
10
VIO
11
1V8
7,5
4,5
1,5
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
10
30
11
29
12
28
13
27
0,6
1,6
14
15
16
17
18
19
20
21
22
23
24
25
26
1,27
2,54
Signal
Description
Ground
Module power supply +3.3V
Module I/O supply (3.3V or 1.8V)
Module power supply +1.8V
SDIO- / G-SPI Interface
PIN
Signal
SD_D2 / SPI_SINTn 1
SD_D3 / SPI_CLK_REQ 1
SD_CMD / SPI_SDI 1
SD_CLK / SPI_CLK 1
SD_D0 / SPI_SCSn 1
SD_D1 / SPI_SDO 1
Description
SDIO 4-bit mode: Data line Bit 2
SDIO 4-bit mode: Data line Bit 3
SDIO 4-bit mode: Command/Response
SDIO 4-bit mode: Clock
SDIO 4-bit mode: Data line Bit 0
SDIO 4-bit mode: Data line Bit 1
LED
PIN
23
28
Signal
GPIO[17]/BT_LED
GPIO[1]/WLAN_LED
Description
LED function set by firmware
LED function set by firmware
Control
PIN
14
Signal
PDn
RESETn
SLEEP_CLK 2
Description
Power Down
Module reset
Input for external sleep clock
3,81
5,08
6,35
7,62
20
Mechanical drawing: Footprint on mother board
General purpose IO
PIN
Signal
19
GPIO[3] 3
20
GPIO[4]
21
GPIO[5] 3
22
GPIO[16]
27
GPIO[0]
29
GPIO[9]
30
GPIO[10]
Description
General purpose IO
General purpose IO
General purpose IO
General purpose IO
General purpose IO
General purpose IO
General purpose IO
Bluetooth Coexistence
PIN
Signal
37
BT_PRIORITY
38
BT_STATE
36
BT_FREQ
39
WL_ACTIVE
Description
Bluetooth priority
Bluetooth state
Bluetooth frequency
Bluetooth WLAN active
Bluetooth UART (max. up to 4Mbps)
PIN
Signal
15
GPIO[2]/UART_RTS
16
GPIO[6]/UART_SOUT
17
GPIO[7]/UART_SINT
18
GPIO[8]/UART_CTS
Description
UART RTS Output
UART SOUT Output
UART SINT Input
UART CTS Input
Audio Interface Unit / Inter IC Sound
PIN
Signal
31
GPIO[11]/BT_PCM_DIN
32
GPIO[12]/BT_PCM_DOUT
33
GPIO[13]/BT_PCM_CLK
34
GPIO[14]/BT_PCM_SYNC
35
GPIO[15]/BT_PCM_MCLK
Description
PCM Data Input signal
PCM Data Output signal
PCM Clock Signal, output if master
PCM Sync Pulse signal
PCM Clock signal (optional for some Codecs)
Antennae
PIN
40
41
42
43
44
45
Description
Antenna ground
Bluetooth antenna in µAP working mode
Antenna ground
Antenna ground
WLAN/Bluetooth antenna in station mode
Antenna ground
Signal
GND
ANT2 (BT only)
GND
GND
ANT1 (WLAN / WLAN+BT)
GND
Notes:
Signal description provided for SDIO 4-bit / G-SPI mode. SDIO-SPI and SDIO -1bit mode are also supported.
External sleep clock for WLAN can be generated by internal clock source or may be provided by an external clock source. For Bluetooth
operation in power save mode an external sleep clock is required (without power save an external clock for Bluetooth is not necessary).
For Bluetooth Power Save mode external sleep clock 32.000 or 32.768 kHz frequency with tolerance ±50ppm is needed (ordinary watch
fork quartz crystal conform to ±50ppm requirements at room temperature only, please check temperature characteristics before use). For
WLAN external sleep clock any clock source with tolerance ±5000ppm can be used (Note that in this case internal sleep clock with the
similar tolerance can be used as well).
Can be used as UART_DSR Input (GPIO[3]), UART_DTR Output (GPIO[5]) and as Bluetooth Wake-Up signals.
Part number: AN00973535
-3lesswire AG│Im Technologiepark 1│15236 Frankfurt (Oder)│Germany│url: www.lesswire.com
Tel.: 0700 L E S S W I R E (53 77 94 73) │Fax +49 (0) 335 56 56 - 999│e-mail: sales@lesswire.com

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Title                           : Microsoft Word - WiBear-SF engl_v0.52.doc
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