u blox WIBEAR-E The Lesswire industrial universal 802.11 a/b/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 engl v1 0

lesswire AG The Lesswire industrial universal 802.11 a/b/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 engl v1 0

Contents

  • 1. UserMan
  • 2. User Man

UserMan

 - 1 - lesswire 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          April 2010 Subject to technical modifications! Universal embedded WLAN solution for OEM customers WiBear - Industrial universal WLAN front end modules  (IEEE 802.11a/b/g)   The lesswire industrial universal WiBear 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 WLAN modules feature two key benefits: • Two WiBear-versions are available for the communication in the 2.4GHz (WiBear/2.4GHz) and in both 2.4 + 5 GHz (WiBear/5GHz) frequency bands. The WiBear/5GHz module allows to use addi-tional 19  channels in the 5 GHz band outside the 2.4 GHz band, which often is crowded by other 2.4 GHz devices. • Offers the simultaneous use of two different leading wireless standards, the IEEE 802.11a/b,g WLAN and a full featured Bluetooth IEEE802.15.1 Class 2 transceiver. The WiBear WLAN module may be integrated in two ways into customer solutions:  • Deploy the processor of the existing design as host controller: The WLAN module is connected to the customer processor by SDIO or G-SPI interfaces. The WLAN stack will run on processor of the exist-ing design.  • Add the WiBear WLAN module together with a host controller to an existing design. As an example, the host controller may be a based on ARM9 core.  The host controller selection can consider additional needed interfaces like Ethernet, USB, CAN, or UART.  The WiBear WLAN module is designed amongst others 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 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. -  WLAN • IEEE802.11b  Output power:     typ. +18 dBm Sensitivity: @  1Mbps  typ.  -98 dBm Sensitivity: @11Mbps  typ.  -89dBm • IEEE802.11g  Output power:     typ. +15 dBm Sensitivity: @  6Mbps  typ.  -91dBm Sensitivity: @12Mbps  typ.  -89dBm Sensitivity: @54Mbps  typ.  -74dBm • IEEE802.11a  Output power:     typ.  +15dBm Sensitivity: @  6Mbps  typ.  - 90dBm Sensitivity: @12Mbps  typ.  - 88dBm Sensitivity: @54Mbps  typ.  - 73dBm - Bluetooth • IEEE802.15.1  Output power:     typ.    +8dBm  -  Operating Temperature  -40°C to + 85°C - Storage Temperature  -50°C to + 125°C -  Host Interface Connector 60 PIN Hirose DF12 • SDIO • G-SPI • Audio  • Bluetooth coexistence • JTAG • UART • LED  Driver Support • Linux 2.6.x • Windows CE, Windows XP/Vista  Bluetooth support • Bluetooth 2.1 and Enhanced Data Rate (EDR) operation • Bluetooth stacks that support UART HCI protocol
 - 2 - lesswire 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         Functions (continuation)      Profile view with connector                                 Technical data WLAN standards:  IEEE 802.11a, b, g IEEE 802.11i, e, j, h, s Data transfer rate:  IEEE 802.11b: 11, 5.5, 2, 1 Mbps IEEE802.11a/g: 54, 48, 36, 24, 18, 12, 9, 6 Mbps  Frequency range:  2.4 – 2.497 GHz (ISM Band) 5.150 – 5.805 GHz (UNII Bands) ETSI support in 5 GHz band:  Transmit Power Control (TPC) Dynamic Frequency Selection (DFS) Protocols:  Implements Ethernet NIC Host interfaces:  SDIO (default),G- SPI alternatively Antenna:  U.FL Hirose coaxial connector Alternatively: Onboard antenna Mounting technology:  60 pin Hirose DF12 connector pro-tected by three bolt connections Management:  According to IEEE802.11  LEDs: Optional, operation status. Set by Firmware Modulation:  OFDM, DSSS/CCK Operating temperature:  -40° to 85°  Celsius  (5 GHz: limited temperature range) Power supply: Supply current:  3.2 – 5.5V (typ. 3.3) 3.3V/350mA (max), 3.3V/300mA (avg) Firmware:  At system power-on firmware is downloaded from host. Optionally the firmware is stored in on-board SPI EEPROM and updated by JTAG interface. Security encryption:  WEP 64/128 Bit-Key, WPA (TKIP, AES), WPA2 Dimensions (LxB):  Onboard antenna:  60mm x 20mm  External antenna: 50mm x 20mm Scope of delivery:  Embedded WLAN module     RF properties achieved by • integrated additional PA 2.4GHz / 5Ghz  • integrated additional LNA 2.4GHz / 5GHz    WLAN/Bluetooth coexistence feature • Hardware based coexistence support by 2-wire, 3-wire,      or 4-wire interfaces  Firmware option for Micro Access Point operation  • Support for up to 8 WLAN stations  Antenna  • U.FL Hirose coaxial connector  Operation • Individual application  User interface • LEDs can be configured for showing operational status • Embedded Linux based Web Server reference application      as configuration interface  Configuration/Programming • Configuration over WLAN or wired interfaces based on the       host controller • External  FW storage on host or separate SPI-Flash • Fast FW download at power-on • FW update over JTAG   Digital interfaces to host controller • 4bit SDIO host controller interface to WLAN module (default) • G-SPI in slave mode: Synchronous communication with communication processor, • Reference design with AT91SAM9262, 10 Mbps Ethernet, CAN, USB, and Linux 2.6.26 including BSP and drivers available 601202.8 max2.8 max4813.8
 - 3 - lesswire 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           60 PIN Host Interface Connector on Motherboard Side  Power Supply PIN  Signal  Description 1-6 GND  Ground 7-10  VCC  Module power supply 3.3V 11  3V0A  Reference voltage output 3.0V 13  1V8B  Reference voltage output 1.8V SDIO- / G-SPI Interface PIN  Signal  Description 16  SD_D2 / SPI_SINTn  SPI_SINTn / SD_DAT[2]                                               18  SD_D3 / SPI_CLK_REQ  SPI_CLK_REQ / SD_DAT[3]                                         20  SD_CMD / SPI_SDI  SPI_SDI / SD_CMD                                                      22  SD_CLK / SPI_CLK  SPI_CLK / SD_CLK                                                       24  SD_D0 / SPI_CSn  SPI_SCSn / SD_DAT[0]                                                26  SD_D1 / SPI_SDO  SPI_SDO / SD_DAT[1]                                                  Bluetooth Coexistence PIN  Signal  Description 35  BT_PRIORITY  BT_PRIORITY                                                               37  BT_STATE  BT_STATE                                                                    39  BT_FREQ  BT_FREQ                                                                      41  WL_ACTIVE  WL_ACTIVE                                                                  Control PIN  Signal  Description 28 PDn  Power Down 30  RESETn  Module reset 32  SLEEP_CLK                    Input for external sleep clock 34  SLEEPn  SLEEPn Output 42  WL_MAC_Wake-up  WLAN_MAC_Wake-up_Input / Interrupt_Input                   Bluetooth UART (max. up to 4000000 baud) PIN  Signal  Description LED    38  UART_RTS  UART_RTS_Output/ CON[15](Boot Config)                      PIN  Signal  Description   46  UART_SOUT UART_SOUT_Output                                                        36  LED1  LED function set by firmware    48  UART_SINT UART_SINT_Input                                                             59  LED2 LED function set by firmware                              50  UART_CTS UART_CTS_Input                                                               JTAG   Audio Interface Unit / Inter IC Sound / Two-Wire PIN  Signal  Description   PIN  Signal  Description 43  JTAG_TRSTn TRSTn    52 GPIO_9 AIU_TWSI_CLK /GPIO_9                                                                45  JTAG_TMS1  TMS_SYS  54  GPIO_10 AIU_TWSI_DATA /GPIO_10                                                           47  JTAG_TDI  TDI    60  GPIO_16  AIU_SPDIF / SoC_to_Host_Interrupt if AIU is disabled 49  JTAG_TDO  TDO  53  GPIO_11  I2S_DIN / BT_PCM_DIN                                                     51  JTAG_TCK  TCK    55  GPIO_13  I2S_BCLK / BT_PCM_CLK                                                 56  GPIO_12  I2S_DOUT / BT_PCM_DOUT                                              Not Bluetooth related UART Signals   57  GPIO_15  I2S_CCLK / BT_PCM_MCLK PIN  Signal  Description   58  GPIO_14  I2S_LRCLK / BT_PCM_SYNC                                           40  UART_DSR  UART_DSR_Input                                                 44  UART_DTR  UART_DTR_Output / Wi-Fi Sleep Config
 - 4 - lesswire 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              60 PIN Host Interface Connector         Recommended spacers for board mounting       SDIO Development Board The SDIO Development Board may be used to evaluate WiBear WLAN Module or to develop applications on a preferred target platform. The target platform should be equipped by a standard SD card reader supporting SDIO in 4bit SD data transfer mode.    SDIO Development Board equipped with WiBear WLAN module AN00K59744-I with onboard antenna.   Part numbers: AN00K59744     WiBear-I   /2.4GHz AN00K59744     WiBear-I   /5 GHz AN00K60055     WiBear-E  /2.4GHz  AN00K60055     WiBear-E  /5GHz AN00K72295     SDIO Development Board

User Man

 - 1 - lesswire 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          April 2010 Subject to technical modifications! Universal embedded WLAN solution for OEM customers WiBear - Industrial universal WLAN front end modules  (IEEE 802.11a/b/g)   The lesswire industrial universal WiBear 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 WLAN modules feature two key benefits: • Two WiBear-versions are available for the communication in the 2.4GHz (WiBear/2.4GHz) and in both 2.4 + 5 GHz (WiBear/5GHz) frequency bands. The WiBear/5GHz module allows to use addi-tional 19  channels in the 5 GHz band outside the 2.4 GHz band, which often is crowded by other 2.4 GHz devices. • Offers the simultaneous use of two different leading wireless standards, the IEEE 802.11a/b,g WLAN and a full featured Bluetooth IEEE802.15.1 Class 2 transceiver. The WiBear WLAN module may be integrated in two ways into customer solutions:  • Deploy the processor of the existing design as host controller: The WLAN module is connected to the customer processor by SDIO or G-SPI interfaces. The WLAN stack will run on processor of the exist-ing design.  • Add the WiBear WLAN module together with a host controller to an existing design. As an example, the host controller may be a based on ARM9 core.  The host controller selection can consider additional needed interfaces like Ethernet, USB, CAN, or UART.  The WiBear WLAN module is designed amongst others 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 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. -  WLAN • IEEE802.11b  Output power:     typ. +18 dBm Sensitivity: @  1Mbps  typ.  -98 dBm Sensitivity: @11Mbps  typ.  -89dBm • IEEE802.11g  Output power:     typ. +15 dBm Sensitivity: @  6Mbps  typ.  -91dBm Sensitivity: @12Mbps  typ.  -89dBm Sensitivity: @54Mbps  typ.  -74dBm • IEEE802.11a  Output power:     typ.  +15dBm Sensitivity: @  6Mbps  typ.  - 90dBm Sensitivity: @12Mbps  typ.  - 88dBm Sensitivity: @54Mbps  typ.  - 73dBm - Bluetooth • IEEE802.15.1  Output power:     typ.    +8dBm  -  Operating Temperature  -40°C to + 85°C - Storage Temperature  -50°C to + 125°C -  Host Interface Connector 60 PIN Hirose DF12 • SDIO • G-SPI • Audio  • Bluetooth coexistence • JTAG • UART • LED  Driver Support • Linux 2.6.x • Windows CE, Windows XP/Vista  Bluetooth support • Bluetooth 2.1 and Enhanced Data Rate (EDR) operation • Bluetooth stacks that support UART HCI protocol
 - 2 - lesswire 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         Functions (continuation)      Profile view with connector                                 Technical data WLAN standards:  IEEE 802.11a, b, g IEEE 802.11i, e, j, h, s Data transfer rate:  IEEE 802.11b: 11, 5.5, 2, 1 Mbps IEEE802.11a/g: 54, 48, 36, 24, 18, 12, 9, 6 Mbps  Frequency range:  2.4 – 2.497 GHz (ISM Band) 5.150 – 5.805 GHz (UNII Bands) ETSI support in 5 GHz band:  Transmit Power Control (TPC) Dynamic Frequency Selection (DFS) Protocols:  Implements Ethernet NIC Host interfaces:  SDIO (default),G- SPI alternatively Antenna:  U.FL Hirose coaxial connector Alternatively: Onboard antenna Mounting technology:  60 pin Hirose DF12 connector pro-tected by three bolt connections Management:  According to IEEE802.11  LEDs: Optional, operation status. Set by Firmware Modulation:  OFDM, DSSS/CCK Operating temperature:  -40° to 85°  Celsius  (5 GHz: limited temperature range) Power supply: Supply current:  3.2 – 5.5V (typ. 3.3) 3.3V/350mA (max), 3.3V/300mA (avg) Firmware:  At system power-on firmware is downloaded from host. Optionally the firmware is stored in on-board SPI EEPROM and updated by JTAG interface. Security encryption:  WEP 64/128 Bit-Key, WPA (TKIP, AES), WPA2 Dimensions (LxB):  Onboard antenna:  60mm x 20mm  External antenna: 50mm x 20mm Scope of delivery:  Embedded WLAN module     RF properties achieved by • integrated additional PA 2.4GHz / 5Ghz  • integrated additional LNA 2.4GHz / 5GHz    WLAN/Bluetooth coexistence feature • Hardware based coexistence support by 2-wire, 3-wire,      or 4-wire interfaces  Firmware option for Micro Access Point operation  • Support for up to 8 WLAN stations  Antenna  • U.FL Hirose coaxial connector  Operation • Individual application  User interface • LEDs can be configured for showing operational status • Embedded Linux based Web Server reference application      as configuration interface  Configuration/Programming • Configuration over WLAN or wired interfaces based on the       host controller • External  FW storage on host or separate SPI-Flash • Fast FW download at power-on • FW update over JTAG   Digital interfaces to host controller • 4bit SDIO host controller interface to WLAN module (default) • G-SPI in slave mode: Synchronous communication with communication processor, • Reference design with AT91SAM9262, 10 Mbps Ethernet, CAN, USB, and Linux 2.6.26 including BSP and drivers available 601202.8 max2.8 max4813.8
 - 3 - lesswire 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           60 PIN Host Interface Connector on Motherboard Side  Power Supply PIN  Signal  Description 1-6 GND  Ground 7-10  VCC  Module power supply 3.3V 11  3V0A  Reference voltage output 3.0V 13  1V8B  Reference voltage output 1.8V SDIO- / G-SPI Interface PIN  Signal  Description 16  SD_D2 / SPI_SINTn  SPI_SINTn / SD_DAT[2]                                               18  SD_D3 / SPI_CLK_REQ  SPI_CLK_REQ / SD_DAT[3]                                         20  SD_CMD / SPI_SDI  SPI_SDI / SD_CMD                                                      22  SD_CLK / SPI_CLK  SPI_CLK / SD_CLK                                                       24  SD_D0 / SPI_CSn  SPI_SCSn / SD_DAT[0]                                                26  SD_D1 / SPI_SDO  SPI_SDO / SD_DAT[1]                                                  Bluetooth Coexistence PIN  Signal  Description 35  BT_PRIORITY  BT_PRIORITY                                                               37  BT_STATE  BT_STATE                                                                    39  BT_FREQ  BT_FREQ                                                                      41  WL_ACTIVE  WL_ACTIVE                                                                  Control PIN  Signal  Description 28 PDn  Power Down 30  RESETn  Module reset 32  SLEEP_CLK                    Input for external sleep clock 34  SLEEPn  SLEEPn Output 42  WL_MAC_Wake-up  WLAN_MAC_Wake-up_Input / Interrupt_Input                   Bluetooth UART (max. up to 4000000 baud) PIN  Signal  Description LED    38  UART_RTS  UART_RTS_Output/ CON[15](Boot Config)                      PIN  Signal  Description   46  UART_SOUT UART_SOUT_Output                                                        36  LED1  LED function set by firmware    48  UART_SINT UART_SINT_Input                                                             59  LED2 LED function set by firmware                              50  UART_CTS UART_CTS_Input                                                               JTAG   Audio Interface Unit / Inter IC Sound / Two-Wire PIN  Signal  Description   PIN  Signal  Description 43  JTAG_TRSTn TRSTn    52 GPIO_9 AIU_TWSI_CLK /GPIO_9                                                                45  JTAG_TMS1  TMS_SYS  54  GPIO_10 AIU_TWSI_DATA /GPIO_10                                                           47  JTAG_TDI  TDI    60  GPIO_16  AIU_SPDIF / SoC_to_Host_Interrupt if AIU is disabled 49  JTAG_TDO  TDO  53  GPIO_11  I2S_DIN / BT_PCM_DIN                                                     51  JTAG_TCK  TCK    55  GPIO_13  I2S_BCLK / BT_PCM_CLK                                                 56  GPIO_12  I2S_DOUT / BT_PCM_DOUT                                              Not Bluetooth related UART Signals   57  GPIO_15  I2S_CCLK / BT_PCM_MCLK PIN  Signal  Description   58  GPIO_14  I2S_LRCLK / BT_PCM_SYNC                                           40  UART_DSR  UART_DSR_Input                                                 44  UART_DTR  UART_DTR_Output / Wi-Fi Sleep Config
 - 4 - lesswire 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              60 PIN Host Interface Connector         Recommended spacers for board mounting       SDIO Development Board The SDIO Development Board may be used to evaluate WiBear WLAN Module or to develop applications on a preferred target platform. The target platform should be equipped by a standard SD card reader supporting SDIO in 4bit SD data transfer mode.    SDIO Development Board equipped with WiBear WLAN module AN00K59744-I with onboard antenna.   Part numbers: AN00K59744     WiBear-I   /2.4GHz AN00K59744     WiBear-I   /5 GHz AN00K60055     WiBear-E  /2.4GHz  AN00K60055     WiBear-E  /5GHz AN00K72295     SDIO Development Board

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