High Flying Electronics Technology HF-LPB200 WiFi Module User Manual GPON SFU System Design

High-Flying Electronics Technology Co.,Ltd WiFi Module GPON SFU System Design

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Manual

HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 1 -                               HF-LPB200  Low Power WiFi Module User Maunal    V 1.0                                                            Overview of Characteristic  Support IEEE802.11b/g/n Wireless Standards  Marvell Solutions for Smart Energy and Home/Building Automation  Low-Power Applications with Excellent Power Save Scheme  Support UART/SPI/USB/PWM/ADC/GPIO Data Communication Interface  Support Work As STA/AP/AP+STA/Wi-Fi Direct Mode  Support Smart LinkTM Function (APP for smart configuration)  Support Wireless (OTA) and Remote Firmware Upgrade Function  Support Wakeup-on-Wireless and Wakeup Local   Support FTTPS/TLS and mDNS Application  Single +3.3V Power Supply  Smallest Size: 23.1mm x 32.8mm x2.7mm   FCC/CE Certificated
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 2 - TABLE OF CONTENTS LIST OF FIGURES ................................................................................................................................... 5 LIST OF TABLES ..................................................................................................................................... 6 HISTORY .................................................................................................................................................. 6 1. PRODUCT OVERVIEW................................................................................................................. 7 1.1. General Description ................................................................................................................. 7 1.1.1 Device Features .................................................................................................................. 7 1.1.2 Device Paremeters ............................................................................................................. 8 1.1.3 Key Application ................................................................................................................... 8 1.2. Hardware Introduction ............................................................................................................. 9 1.2.1. Pins Definition ..................................................................................................................... 9 2.1.1. Electrical Characteristics ................................................................................................... 11 2.1.2. Mechanical Size ................................................................................................................ 11 2.1.3. On-board Chip Antenna .................................................................................................... 12 2.1.4. External Antenna ................................................................................... 错误!未定义书签。 2.1.5. Evaluation Kit .................................................................................................................... 13 2.1.6. Order Information .............................................................................................................. 15 2.2. Typical Application ................................................................................................................ 16 2.2.1. Hardware Typical Application ............................................................................................ 16 2.2.2. Internal MCU Hardware Feature ....................................................................................... 17 2.2.3. Software SDK Architecture ............................................................................................... 18 3. FUNCTIONAL DESCRIPTION ................................................................................................... 19 3.1. Wireless Networking .............................................................................................................. 19 3.1.1. Basic Wireless Network Based On AP (Infrastructure) .................................................... 19 3.1.2. Wireless Network Based On AP+STA .............................................................................. 19 3.1.3. Wi-Fi Direct Network ......................................................................................................... 20 3.2. Work Mode : Transparent Transmission Mode ................................................................... 21 3.3. UART Frame Scheme ............................................................................................................. 22 3.4. Encryption............................................................................................................................... 22 3.5. Multi-TCP Link Connection ................................................................................................... 22 3.6. Power Save Scheme .............................................................................................................. 23 3.7. Parameters Configuration ..................................................................................................... 24 3.8. Firmware Update .................................................................................................................... 24 3.9. GPIO Function ........................................................................................................................ 25 3.10. Analog Digital Converter (ADC) Function ........................................................................ 26 4. OPERATION GUIDELINE........................................................................................................... 28 4.1. Configuration via Web Accessing ........................................................................................ 28 4.1.1. Open Web Management Interface ................................................................................... 28 4.1.2. System Page ..................................................................................................................... 28 4.1.3. Work Mode Page .............................................................................................................. 29 4.1.4. STA Setting Page ............................................................................................................. 29
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 3 - 4.1.5. AP Setting Page ................................................................................................................ 30 4.1.6. Other Setting Page ........................................................................................................... 31 4.1.7. Account Management Page .............................................................................................. 31 4.1.8. Upgrade Software Page .................................................................................................... 32 4.1.9. Restart Page ..................................................................................................................... 32 4.1.10. Restore Page ................................................................................................................ 32 4.2. HF-LPB200 Usage Introduction ............................................................................................ 33 4.2.1. Software Debug Tools ...................................................................................................... 33 4.2.2. Network Connection .......................................................................................................... 33 4.2.3. Default Parameter Setting ................................................................................................. 34 4.2.4. Module Debug ................................................................................................................... 34 4.3. Typical Application Examples............................................................................................... 35 4.3.1. Wireless Control Application ............................................................................................. 35 4.3.2. Remote Management Application ..................................................................................... 36 4.3.3. Transparent Serial Port Application .................................................................................. 36 5. AT+INSTRUCTION INTRODUCTION ....................................................................................... 37 5.1. Configuration Mode ............................................................................................................... 37 5.1.1. Switch to Configuration Mode ........................................................................................... 37 5.2. AT+ Instruction Set Overview ............................................................................................... 38 5.2.1. Instruction Syntax Format ................................................................................................. 38 5.2.2. AT+ Instruction Set ........................................................................................................... 39 5.2.2.1. AT+E ............................................................................................................................. 40 5.2.2.2. AT+WMODE ................................................................................................................. 41 5.2.2.3. AT+ENTM ..................................................................................................................... 41 5.2.2.4. AT+TMODE ................................................................................................................... 41 5.2.2.5. AT+MID ......................................................................................................................... 41 5.2.2.6. AT+VER ........................................................................................................................ 42 5.2.2.7. AT+RELD ...................................................................................................................... 42 5.2.2.8. AT+Z.............................................................................................................................. 42 5.2.2.9. AT+H ............................................................................................................................. 42 5.2.2.10. AT+CFGRD ............................................................................................................... 42 5.2.2.11. AT+CFGWR .............................................................................................................. 43 5.2.2.12. AT+CFGFR ................................................................................................................ 43 5.2.2.13. AT+CFGTF ................................................................................................................ 43 5.2.2.14. AT+UART .................................................................................................................. 43 5.2.2.15. AT+ UARTTE ............................................................................................................. 44 5.2.2.16. AT+ SEND ................................................................................................................. 44 5.2.2.17. AT+ RECV ................................................................................................................. 44 5.2.2.18. AT+ PING .................................................................................................................. 45 5.2.2.19. AT+NETP .................................................................................................................. 45 5.2.2.20. AT+ TCPLK ............................................................................................................... 45 5.2.2.21. AT+ TCPTO ............................................................................................................... 45 5.2.2.22. AT+TCPDIS ............................................................................................................... 46
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 4 - 5.2.2.23. AT+WSSSID .............................................................................................................. 46 5.2.2.24. AT+WSKEY ............................................................................................................... 46 5.2.2.25. AT+ WANN ................................................................................................................ 47 5.2.2.26. AT+ WSMAC ............................................................................................................. 47 5.2.2.27. AT+ WSLK ................................................................................................................. 48 5.2.2.28. AT+ WSLQ ................................................................................................................ 48 5.2.2.29. AT+WSCAN .............................................................................................................. 48 5.2.2.30. AT+ WSDNS ............................................................................................................. 48 5.2.2.31. AT+ LANN ................................................................................................................. 49 5.2.2.32. AT+WAP .................................................................................................................... 49 5.2.2.33. AT+WAKEY ............................................................................................................... 49 5.2.2.34. AT+WAMAC .............................................................................................................. 50 5.2.2.35. AT+WADHCP ............................................................................................................ 50 5.2.2.36. AT+WADMN .............................................................................................................. 50 5.2.2.37. AT+PLANG ................................................................................................................ 51 5.2.2.38. AT+UPURL ................................................................................................................ 51 5.2.2.39. AT+UPFILE ............................................................................................................... 51 5.2.2.40. AT+UPST .................................................................................................................. 51 5.2.2.41. AT+WEBU ................................................................................................................. 52 5.2.2.42. AT+MSLP .................................................................................................................. 52 5.2.2.43. AT+WRMID ............................................................................................................... 52 5.2.2.44. AT+ASWD ................................................................................................................. 53 6. PACKAGE INFORMATION......................................................................................................... 54 6.1. Recommended Reflow Profile .............................................................................................. 54 6.2. Device Handling Instruction (Module IC SMT Preparation) ............................................... 54 6.3. Shipping Information ............................................................................................................. 55 APPENDIX A: HW REFERENCE DESIGN....................................................................................... 56 APPENDIX B: CONTACT INFORMATION ....................................................................................... 57
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 5 - LIST OF FIGURES  Figure 1. HF-LPB200 Demo ............................................................................................................... 9 Figure 2. HF-LPB200 Pins Map ......................................................................................................... 9 Figure 3. HF-LPB200 Mechanical Dimension .................................................................................. 12 Figure 4. HF-LPB200 PCB Symbol Size .......................................................................................... 12 Figure 5. Suggested Module Placement Region .............................................................................. 13 Figure 6. HF-LPB200 Evaluation Kit ................................................................................................ 14 Figure 7. HF-LPB200 Order Information .......................................................................................... 15 Figure 8. HF-LPB200 Hardware Typical Application ........................................................................ 16 Figure 9. HF-LPB200 Internal MCU Hardware Architecture ............................................................ 17 Figure 10. HF-LPB200 Software SDK Architecture ........................................................................... 18 Figure 11. HF-LPB200 Basic Wireless Network Structure ................................................................ 19 Figure 12. HF-A11 AP+STA Network Structure ................................................................................. 20 Figure 13. HF-LPB200 1:1  P2P Networking ..................................................................................... 20 Figure 14. HF-LPB200 1:N  P2P Networking ..................................................................................... 21 Figure 15. Multi-TCP Link Data Transmition Structure ...................................................................... 23 Figure 16. Open Web Management page .......................................................................................... 28 Figure 17. System Web Page ............................................................................................................ 29 Figure 18. Work Mode Page .............................................................................................................. 29 Figure 19. STA Setting Page ............................................................................................................. 30 Figure 20. AP Setting Page ................................................................................................................ 30 Figure 21. Other Setting Page ........................................................................................................... 31 Figure 22. Account Page .................................................................................................................... 31 Figure 23. Upgrade SW page ............................................................................................................ 32 Figure 24. Restart Page ..................................................................................................................... 32 Figure 25. Restore Page .................................................................................................................... 33 Figure 26. STA Interface Debug Connection ..................................................................................... 33 Figure 27. AP Interface Debug Connection ....................................................................................... 34 Figure 28. “CommTools” Serial Debug Tools .................................................................................... 34 Figure 29. “TCPUDPDbg” Tools Create Connection ......................................................................... 34 Figure 30. “TCPUDPDbg” Tools Setting ............................................................................................ 35 Figure 31. “TCPUDPDbg” Tools Connection ..................................................................................... 35 Figure 32. Wireless Control Application ............................................................................................. 35 Figure 33. Remote Management Application ..................................................................................... 36 Figure 34. Transparent Serial Port Application .................................................................................. 36 Figure 35. HF-LPB200 Default UART Port Parameters ..................................................................... 37 Figure 36. Switch to Configuration Mode ........................................................................................... 37 Figure 37. ”AT+H” Instruction for Help ............................................................................................... 38 Figure 38. Reflow Soldering Profile .................................................................................................... 54 Figure 39. Shipping Information ......................................................................................................... 55
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 6 - LIST OF TABLES  Table 1     HF-LPB200 Module Technical Specifications ......................................................................... 8 Table 2     HF-LPB200 Pins Definition .................................................................................................... 10 Table 3     HF-LPB200 External Antenna Parameters ................................................. 错误!未定义书签。 Table 4     HF-LPB200 Evaluation Kit Interface Description ................................................................... 15 Table 6    Difference between Wi-Fi Wakeup Mode and Standb Deep Sleep Mode ............................. 23 Table 7     Power Consumption with Different Power Save Mode .......................................................... 24 Table 7     HF-LPB200 GPIO Pin Mapping Table ................................................................................... 26 Table 8     HF-LPB200 Web Access Default Setting .............................................................................. 28 Table 9     Error Code Describtion .......................................................................................................... 39 Table 10     AT+ Instruction Set List ....................................................................................................... 39 Table 11   Reflow Soldering Parameter .................................................................................................. 54 HISTORY Ed. V1.0   Created on 5-20-2013.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 7 - 1. PRODUCT OVERVIEW 1.1. General Description The HF-LPB200 is a fully self-contained small form-factor, single stream, 802.11b/g/n Wi-Fi module, which provide a wireless interface to any equipment with a Serial/SPI/USB/GPIO interface for data transfer.HF-LPB200 integrate MAC, baseband processor, RF transceiver with power amplifier in hardware and all Wi-Fi protocol and configuration functionality and networking stack, in embedded firmware to make a fully self-contained 802.11b/g/n Wi-Fi solution for a variety of applications.  HF-LPB200 support AP+STA wireless networking and support Wi-Fi Direct mode. HF-LPB200 also provides wireless and remote firmware upgrade, which satisfied all kinds of application requirement. HF-LPB200 support wakup-on-wireless feature which make it a very suitable solution for battery applications with excellent power save scheme. The HF-LPB200 employs the world's lowest power consumption embedded architecture. It has been optimized for all kinds of client applications in the home automation, smart grid, handheld device, personal medical application and industrial control that have lower data rates, and transmit or receive data on an infrequent basis.  The HF-LPB200 integrates all Wi-Fi functionality into a low-profile, 23.1x32.8x 2.7mm SMT module package that can be easily mounted on main PCB with application specific circuits. Also, module provides built-in antenna, external antenna option. 1.1.1 Device Features  Single stream Wi-Fi @ 2.4 GHz with support for WEP security mode as well as WPA/WPA2   Fully self-contained serial-to-wireless functionality.  Support IEEE802.11b/g/n Wireless Standards  Ultra-Low-Power for Battery Applications with Excellent Power Save Scheme  Support UART/SPI/USB/PWM/ADC/GPIO Data Communication Interface  Support Work As STA/AP/AP+STA/Wi-Fi Direct Mode  Support Smart LinkTM Function (APP for smart configuration)  Support Wireless (OTA) and Remote Firmware Upgrade Function  Support Wakeup-on-Wireless and Wakeup Local   Support TLS/SSL and mDNS Protocal  Reserve More Than 512KB Flash and 128KB SRAM For User Defined Application  Single +3.3V Power Supply  Smallest Size: 23.1mm x 32.8mm x2.7mm   FCC/CE Certificated
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 8 - 1.1.2 Device Paremeters Table 1     HF-LPB200 Module Technical Specifications  Class Item Parameters Wireless Parameters Certification FCC/CE Wireless standard 802.11 b/g/n Frequency range 2.412GHz-2.484GHz Transmit Power 802.11b: +16 +/-2dBm (@11Mbps) 802.11g: +14 +/-2dBm (@54Mbps)  802.11n: +13 +/-2dBm (@HT20, MCS7) 802.11n: +12 +/-2dBm (@HT40, MCS7) Receiver Sensitivity 802.11b: -93 dBm (@11Mbps ,CCK)  802.11g: -85 dBm (@54Mbps, OFDM) 802.11n: -82 dBm (@HT20, MCS7) Internal:On-board PCB antenna Hardware Parameters Data Interface UART SPI, PWM, GPIO… Others: USB, ADC, RTC… Operating Voltage 3.1~3.6V Operating Current Peak [Continuous TX]: ~240mA Normal [WiFi ON/OFF, DTIM=100ms]:          AP Associate: ~21mA; No-AP Associate:~26mA Wakeup-on-Wireless Mode: ~10mA;  Deep Sleep: <100uA Operating Temp. 0℃- 70℃ Storage Temp. -45℃- 125℃ Dimensions and Size 23.1mm×32.8mm×2.7mm Software Parameters Network Type STA /AP/STA+AP/Wi-Fi Direct Security Mechanisms WEP/WPA-PSK/WPA2-PSK Encryption WEP64/WEP128/TKIP/AES Update Firmware Local Wireless (OTA), Remote Customization Web Page Upgrade Provide SDK for application develop Reserved Resource Flash: >200KB; SRAM:>100KB Network Protocol IPv4,TCP/UDP/FTP/HTTP, FTTPS,TLS,mDNS User Configuration AT+instruction set, Web page/ Android/ iOS Smart Link APP tools 1.1.3 Key Application  Remote equipment monitoring  Smart Home/Energy  Industrial sensors and controls  Home automation  Medical/Healthcare devices
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 9 - 1.2. Hardware Introduction                                                          Figure 1. HF-LPB200 Demo  1.2.1. Pins Definition                       Figure 2. HF-LPB200 Pins Map
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 10 - Table 2     HF-LPB200 Pins Definition Pin Describtion Net Name Signal Type Comments 1,17,32,48 Ground GND Power  2 JTAG Function JTAG_TCK I, PU JTAG/Debug functional pin, No connect if not use. No connect 3 JTAG Function JTAG_TDO O 4 JTAG Function JTAG_TDI I,PU 5 JTAG Function JTAG_TMS I,PU 6 JTAG Function JTAG_nTRST I,PU 7 Sleep Control Sleep_RQ I.PU GPIO7, No connect if not use. 8 Sleep Control Sleep_ON O GPIO8, No connect if not use. 9 +3.3V Power DVDD Power  10 GPIO GPIO10 I/O,PU GPIO10, No connect if not use. 11 A/D Input 1 ADC1 I/O GPIO11, No connect if not use. 12 A/D Input 2 ADC2 I/O GPIO12, No connect if not use. 13 GPIO GPIO13 I/O GPIO13, No connect if not use. 14 GPIO GPIO14 I/O GPIO14, No connect if not use. 15  N.C  No connect (Must Float) 16 USB Interface USB_PIO I/O USB dedicated interface. 18 PWM Output 1 PWM_1 I/O GPIO18, No connect if not use. 19 USB Interface USB_VBUS I USB dedicated interface. 20 PWM Output 2 PWM_2 I/O GPIO20, No connect if not use. 21 USB Interface USB- I/O 90 ohm Diff. Line 22 USB Interface USB+ I/O 90 ohm Diff. Line 23 PWM Output 3 PWM_3 I/O GPIO23, No connect if not use. 24 PWM Output 4 PWM_4 I/O GPIO24, No connect if not use. 25 I2C Interface I2C_SCL I/O GPIO25, No connect if not use. 26 I2C Interface I2C_SDA I/O GPIO26, No connect if not use. 27 SPI Data In SPI_MISO I GPIO27, No connect if not use. 28 SPI Interface SPI_CLK I/O GPIO28, No connect if not use. 29 SPI Interface SPI_CS I/O GPIO29, No connect if not use. 30 SPI Data Out SPI_MOSI O GPIO30, No connect if not use. 31 +3.3V Power DVDD Power  33  N.C  No connect 34 +3.3 Power DVDD Power  35  N.C  No connect 36  N.C  No connect 37   N.C  No connect 38  N.C  No connect 39 UART0  UART0_TX  O UART Communication Pin 40 UART0  UART0_RTS I/O UART  Pin (Or RS485 Control) 41  UART0 UART0_RX  I UART Communication Pin 42  UART0 UART0_CTS  I/O  UART Communication Pin 43  Wi-Fi Status  nLink O “0”- Wi-Fi Linked       “1”- No WIFI Linked  No connect if not use. 44  Module Boot Up nReady O “0” – Boot-up OK;
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 11 - Indicator     “1” – Boot-up No OK;  Also used as hardware watch dog trigger signal. No connect if not use.; 45  Restore Configuration nReload I,PU Module will restore factory default after set this pin “0” more than 1s, then set “1”.  46   N.C  No connect 47 Module Reset EXT_RESETn I,PU “Low” effective reset input.  Notes:  1.     Detailed GPIO functional application refers ro Chapter 2 “GPIO Function” Section. 2. For customer which plan migrate from HF-LPB to HF-LPB200, please pay attention Pin 35, Pin 46 is NC for HF-LPB200; 2.1.1. Electrical Characteristics Absolute Maximum Ratings: Parameter Condition Min.  Typ.  Max.  Unit  Storage temperature range   -45  125  °C  Maximum soldering temperature  IPC/JEDEC J-STD-020   260 °C  Supply voltage   0   3.8 V  Voltage on any I/O pin   0  3.3  V  ESD (Human Body Model HBM) TAMB=25°C   2 KV ESD (Charged Device Model, CDM) TAMB=25°C   500 V  Power Supply & Power Consumption: Parameter Condition Min.  Typ.  Max.  Unit  Operating Supply voltage   2.97 3.3 3.63  V  Supply current, peak  Continuous Tx  200 250 mA Supply current, IEEE PS  DTIM=100ms  21  mA Input high voltage   VDD*70%  VDD+0.4 V Input low voltage   -.04  VDD*30% V Input leakage current   VDD On  2 uA Input  capacitance    5 pF Pullup strength  10  50 uA Pulldowm strength  10  50 uA Analog input range   0  3 V Analog output range   0  3 V 2.1.2. Mechanical Size HF-LPB200 modules physical size (Unit: mm) as follows:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 12 -                       Figure 3. HF-LPB200 Mechanical Dimension HF-LPB200 Module PCB symbol size (mm) as follows:                                          Figure 4. HF-LPB200 PCB Symbol Size 2.1.3. On-board Chip Antenna HF-LPB200 module support internal on-board chip antenna option. When customer select internal antenna, you shall comply with following antenna design rules and module location suggestions:  For customer PCB, RED color region (8.3x18.4mm) can‟t put componet or paste GND net;
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 13 -  Antenna must away from metal or high components at least 10mm;  Antenna can‟t be shieldedby any meal enclosure; All cover, include plastic, shall away from antenna at least 10mm;                                Figure 5. Suggested Module Placement Region High-Flying suggest HF-LPB200 module better locate in following region at customer board, which to reduce the effect to antenna and wireless signal, and better consult High-Flying technical people when you structure your module placement and PCB layout.   2.1.4. Evaluation Kit High-Flying provides the evaluation kit to promote user to familiar the product and develop the detailed application. The evaluation kit shown as below, user can connect to HF-LPB200 module with the RS-232 UART, RS485, USB (Internal UART-USB convetor) or Wireless port to configure the parameters, manage the module or do some functional tests. Detailed EVK applicarion pls refer to HF-LPB200 SDK user guide.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 14 -              Figure 6. HF-LPB200 Evaluation Kit Notes: User may needs download USB - UART port driver from High-Flying web or contact with technical support people for more detail. The external interface description for evaluation kit as follows:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 15 - Table 4     HF-LPB200 Evaluation Kit Interface Description 2.1.5. Order Information  Base on customer detailed requirement, HF-LPB200 series modules provide different variants and physical type for detailed application.                              Figure 7. HF-LPB200 Order Information Function Name Description External Interface COM1 Main data/command RS-232 interface RS485 Main data/command RS-485 interface JTAG JTAG/JLink debug interface USB2TTL UART to USB debug interface. (For PC without RS232, need load driver). Can be power input. USB DEBUG HF-LPB200 USB2.0 data interface (Reserved for future use)  DC Jack DC jack for power in, 5~18V input. DC5-18V DC jack for power in, 5~18V input. BAT 2 Li-Battery Power Supply. EXT PORT HF-LPB200 GPIO  function extend interface connector JMP2 Boot up option.  Add jumper when download image through UART. JMP3 4Pin USB or RS232 Jumper. Left jump when select USB. JMP6 3Pin RS485 Jumper. No jump when selects RS232. LED Power 3.3V Power Indicator nLink nLink -WiFi LINK Indicator nReady nReady – Module Bootup Ready Indicator On (“low”)- Module bootup OK; Off (“high”)- Mouule botup failed; Twinkle- Remote Upgrade Ongoing; Sleep_ON Sleep_ON-Module asleep or awake Indicator On (“low”)- Module in shundown(deep sleep) status; Off (“high”)- Mouule in normal status; Twinkle- Bootloader Upgrade Ongoing; Button nReset Used to reset the module. nReload Restore factory configuration after push this pin more than 3s. WPS WPS Button Sleep_RQ Pin Sleep Control, more than 1s to put module in standby mode.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 16 - 2.2. Typical Application 2.2.1. Hardware Typical Application             Figure 8. HF-LPB200 Hardware Typical Application Notes: nReset- Module hardware reset signal. Input. Logics “0” effective.  There is pull-up resister internal and no external pull-up required. When module power up or some issue happened, MCU need assert nRST signal “0” at least 10ms, then set” 1” to keep module fully reset.   nLink- Module WIFI connection status indication. Output.  When module connects to AP (AP associated), this pin will output “0”. This signal used to judge if module already at WiFi connection status. Thers is pull-up resister internal and no external pull-up required. If nLink function not required, can leave this pin open.  nReady- Module boot up ready signal. Output. Logics “0” effective. The module will output “0” after normal boot up. This signal used to judge if module finish boot up and ready for application or working at normal mode. If nReady function not required, can leave this pin open.  nReload- Module restore to factory default configuration.Input. Logics “0” effective. User can de-assert nReload signal “0” more than 3s through button or MCU pin, then release, module will restore to factory default configuration and re-start boot up process.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 17 - Sleep-RQ- Module Pin Sleep Control. Input.  The user should de-assert this pin low “0”, after 1‟s assert to high ”1”  to put the module to sleep status. Also at the deep sleep/standby mode, user can de-assert this pin low “0”, after 1‟s assert to high ”1”  to put the module to wake up the module.  Sleep-ON- Module Pin Sleep Indicator. Output.  This pin is used to indicate that the module is asleep (Module output “0”) or awake (Module output “1”) status. If user doesn't use pin sleep function, can leave this pin open.  UART0_TXD/RXD- UART port data transmit and receive signal. 2.2.2. Internal MCU Hardware Feature MCU and hardware Key Features as following for customized application:  ARM Cortex‐M3 Core, Up to 200Mhz;   1MB in-package QSPI Flash, 512KB SRAM;  SPI Extend 1MB flash available;   Multiple power down mode w/ SRAM Retention;  Configurable GPIO function (Module output);  ADC 16 bit, 2 channel;  PWM, 4 channel;  One I2C interface;  One SPI/I2S/UART interface;  One USB OTG FS2.0 interface;  RTC extend interface;                                     Figure 9. HF-LPB200 Internal MCU Hardware Architecture
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 18 - 2.2.3. Software SDK Architecture HF-LPB software platform as following picture and High-Flying will provide full SDK for customer application development. Detailed SDK introduction refer to SDK API interface and user guide document.      Figure 10. HF-LPB200 Software SDK Architecture
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 19 - 3. FUNCTIONAL DESCRIPTION 3.1. Wireless Networking HF-LPB200 module can be configured as both wireless STA and AP base on network type. Logically there are two interfaces in HF-LPB200. One is for STA, and another is for AP. When HF-LPB200 works as AP, other STA equipments are able to connect to wireless LAN via HF-LPB200 module. Wireless Networking with HF-LPB200 is very flexible.   Notes: AP: that is the wireless Access Point, the founder of a wireless network and the centre of the network nodes. The wireless router we use at home or in office may be an AP.  STA: short for Station, each terminal connects to a wireless network (such as laptops, PDA and other networking devices) can be called with a STA device.  3.1.1. Basic Wireless Network Based On AP (Infrastructure) Infrastructure: it‟s also called basic network. It built by AP and many STAs which join in. The characters of network of this type are that AP is the centre, and all communication between STAs is transmitted through the AP. The figure following shows such type of networking.                              Figure 11. HF-LPB200 Basic Wireless Network Structure 3.1.2. Wireless Network Based On AP+STA HF-LPB200 module support AP+STA network mode, means module support one AP interface and one STA interface at the same time, as following figure,
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 20 -  Figure 12. HF-A11 AP+STA Network Structure When module enables AP+STA function, Module‟s STA interface can connect with router and connect to TCP server in the network. At the same time, module‟s AP interface is also active and permit phone/PAD to connect through TCPB, then phone/PAD can control user device and and setting the module parameters, The advantage of AP+STA mode is:  Users can easily setting and track user device through Phone/PAD and not change the orginal network setting.  Users can easily setting module‟s parameters through WiFi when module works as STA mode. 3.1.3. Wi-Fi Direct Network  Wi-Fi Direct standard permits the wireless connection without AP router. Like blue tooth, this standard use point to point interconnection and all devices connect each other and transmit data withour router.  HF-LPB200 module support following Wi-Fi Direct networking:  1:1  P2P Networking;  1:N  P2P Networking (TBD);                                  Figure 13. HF-LPB200 1:1  P2P Networking
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 21 -                                   Figure 14. HF-LPB200 1:N  P2P Networking 3.2. Work Mode : Transparent Transmission Mode HF-LPB200 module support serial interface transparent transmission mode. The benefit of this mode is achieves a plug and play serial data port, and reduces user complexity furthest. In this mode, user should only configure the necessary parameters. After power on, module can automatically connect to the default wireless network and server.   As in this mode, the module's serial port always work in the transparent transmission mode, so users only need to think of it as a virtual serial cable, and send and receive data as using a simple serial. In other words, the serial cable of users‟ original serial devices is directly replaced with the module; user devices can be easy for wireless data transmission without any changes.  The transparent transmission mode can fully compatible with user‟s original software platform and reduce the software development effort for integrate wireless data transmission. The parameters which need to configure include:  Wireless Network Parameters  Wireless Network Name(SSID)  Security Mode  Encryption Key  TCP/UDP Linking Parameters  Protocol Type  Link Type(Server or Client)  Target Port ID Number  Target Port IP Address  Serial Port Parameters  Baud Rate  Data Bit  Parity (Check) Bit  Stop Bit  Hardware Flow Control
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 22 - 3.3. UART Frame Scheme HF-LPB200 support UART free-frame function. Module will check the intervals between any two bytes when reciving UART data. If this interval time exceeds defined value (50ms default), HF-LPB200 will think it as the end of one frame and transfer this free-frame to WiFi port, or HF-LPB200 will receive UART data untill 1400 bytes, then transfer 1400 bytes frame to WiFi port.  HF-LPB200‟s default interval time is 50ms. User can also set this interval to fast (10ms) through AT command. But user have to consider if user MCU can send UART data with 10ms interval ,or the UART data may be divide as fragment.  Through AT command: AT+UARTTE=fash/normal, user can set the interval time: fast (10ms) and normal (50ms).  3.4. Encryption Encryption is a method of scrambling a message that makes it unreadable to unwanted parties, adding a degree of secure communications. There are different protocols for providing encryption, and the HF-LPB200 module supports following:  WEP  WPA-PSK/TKIP  WPA-PSK/AES  WPA2-PSK/TKIP  WPA2-PSK/AES 3.5. Multi-TCP Link Connection When HF-LPB200 module configured as TCP Server, it supports Multi-TCP link connection, and maximum eight TCP clients permit to connect to HF-LPB200 module. User can realize multi-TCP link connection at each work mode.  Multi-TCP link connection will work as following structure: Upstream:  All dates from different TCP connection or client will be transmitted to the serial port as a sequence. Downstream:  All data from serial port (user) will be duplicate and broadcast to every TCP connection or client. Detailed multi-TCP link data transmition structure as following figure:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 23 -                       Figure 15. Multi-TCP Link Data Transmition Structure 3.6. Power Save Scheme HF-LPB200 module can work at three modes based on different power save scheme:  Normal Mode (Active/Sleep)  - AP Associated, Wi-Fi ON/OFF based on internal control  Wi-Fi Wakeup Mode (Standby) - AP Associated, MCU OFF, Wi-Fi wakeup   Deep Sleep Mode (Shutdown)  - Non AP Associated, Wi-Fi Shut dwon, MCU Sleep Pin/Timer Wakeup  Normal Mode (Active/Sleep) Normal mode means Wi-Fi circuitry works at IEEE PS mode and MCU circuitry work at normal mode. That‟s the default working mode for HF-LPB200 to communication with outside and no data transceiving latency.  Wi-Fi Wakeup Mode (Standby) allows the MCU circuitry to be powered down and still keep Wi-Fi AP associated, which save more power compared with normal mode and module can be wake up through Wi-Fi at network server side. Deep Sleep Mode (Shutdown) allows the Wi-Fi circuitry and MCU circuitry to be powered down, which results in the lowest sleep current, but at the expense of longer wake up times. This is due to the module associating with the access point every time when it wakes up. The intent of this option is to allow for longer sleep times. Deep sleep mode can trigger “Sleep_RQ” pin to go in. The Difference between Wi-Fi Wakeup and Deep Sleep mode as follows:     Table 6    Difference between Wi-Fi Wakeup Mode and Standb Deep Sleep Mode  Module Status Wake Up Method  Wi-Fi MCU Current UART GPIO Timeout AT Com. Wi-Fi Wi-Fi Wakeup ON OFF <10mA OFF Yes Yes No Yes Deep Sleep OFF OFF 1mA OFF Yes Yes No No  Following typical measurement parameters can be used for select suitable power save scheme based on the real application case:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 24 - Table 7     Power Consumption with Different Power Save Mode WiFi Mode Condition Average Current Peak Current  Deep Sleep Wi-Fi/MCU Shutdown < 100uA < 100uA Wi-Fi Wakeup MCU Shundown ~10mA < 200mA Normal (Active/Sleep) WiFi ON - AP Associated DTIM = 100ms, No Data ~21mA < 250mA Normal (Active/Sleep) WiFi ON - AP No-Assoiated DTIM = 100ms, No Data ~27mA < 250mA Normal (Active/Sleep) WiFi ON – AP Connected DTIM = 100ms, Date:1KB/s ~50mA < 250mA  In addition, for Wi-Fi Wakeup/Deep Sleep mode, module provides three wakes up options, user can select one or whole as the module wake up option. Refer to AT Instruction (Power Management Instruction Set) for more detailed setting.  Pin (Sleep_RQ) Wake Up  Timeout Wake Up  Wi-Fi Wake Up  Pin Wake Up Option allows an external microcontroller to determine when HF-LPB200 should sleep and when it should wake by controlling the “Sleep_RQ” and “Sleep_ON” pin. at the Wi-Fi wakeup mode/Deep Sleep mode, user can de-assert this pin low “0”, after 1‟s assert to high ”1”  to put the module to wake up the module. If user doesn't use pin sleep function, can leave this pin open.  Timeout Wake Up Option allows the sleep timeout period to be configured through the use of AT Instruction.In this option, the module will exit sleep based on the <Timeout> AT Instruction parameters  Wi-Fi Wake Up Option only applicatable for Wi-Fi Wakeup mode, which provide the flexibility for network server or user to control and manage the Wi-Fi device to go into power save mode, but still keep the Wi-Fi link associated, Refer to AT Instruction to know more about the WiFi wakeup command. 3.7. Parameters Configuration HF-LPB200 module supports two methods to configuration parameters: Web Accessing and AT+instruction set. Web accessing means users can configure parameters through Web browser. When HF-LPB200 module connected to wireless network, parameters configuration is done on a PC connected to the same wireless network.  AT+instruction set configuration means user configure parameters through serial interface command. Refer to “AT+instruction set” chapter for more detail. 3.8. Firmware Update HF-LPB200 module supports two on-line upgrade methods:  Webpage Wi-Fi Upgrade  Remote Upgrade
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 25 - Webpaged based Wi-Fi upgrade, please refer to 3.1.8 firmware upgrade page, user can upload firmware file from PC to HF-LPB200.  HF-LPB200 module also support upgrade from remote HTTP server, keep module connects to AP router before excuate remote HTTP upgrade. Remote upgrade have two methods: Direct Download and Upgrade, Configure File Based Upgrade.   Configure File Based Upgrade AT+UPURL command to set the remote directory which the configuration file located, such as AT+UPURL=http://www.hi-flying.com/!admin/down/ Notes: The last ‟/‟ can‟t be remove AT+UPFILE command to set the configuration file name, such as AT+UPFILE=config.txt AT+UPST command to start remote upgrade. After excuate this command, the module will firstly download configuration file (“config.txt”), then download the upgrade file base on the URL address listed in the configure file.  General “config.txt” file format as following example:                                                                                                                                               [URL]=”http://www.hi-flying.com/!admin/down/20133181764087523.zip”   Direct Download and Upgrade AT+UPURL command to set the remote directory and file name, such as: AT+UPURL=http://www.hi-flying.com/!admin/down/,lpb.bin After excuate this command, the module will directly download the “lpb.bin” file from remote directory and start upgrade. Notes: please contact with high-flying technical people before upgrade firmware, or maybe damage the module and can‟t work again. 3.9. GPIO Function HF-LPB200 module can provide maximum 17 GPIO pins, which include following configurable interface application:     Two A/D analog input pins, dual channel, 16-bit ADC with sample rate upto 250KHz;  Four PWM ouput  pins (4 channel);  32.768KHz Crystal input for RTC function support;   Two Pin sleep control pins for low power application;  One WPS functional pin;  One I2C interace;  One General Serial Communication Port, which can configured as   Master/Slave SPI Interface;  UART2 Interface with flow control;  I2S audio interface; HF-LPB200 GPIO pin map as following table:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 26 - Table 7     HF-LPB200 GPIO Pin Mapping Table  User need get HF-LPB200 SDK to configure these GPIOs to different functions. Please contact high-flying technical people to acquire more information.  When module works at GPIO mode, PC and other equipts can setup connection (TCP/UDP) through Wi-Fi, then read/write GPIO information through command.  GPIO n IN,       Set GPIOn as input, Response GPIO OK or GPIO NOK;  GPIO n OUT 0, Set GPIOn as output and output „0‟, Response GPIO OK or GPIO NOK;  GPIO n OUT 1, Set GPIOn as output and output „1‟, Response GPIO OK or GPIO NOK;  GPIO n SW,     Set GPIOn as output and switch the output status, Response GPIO OK or GPIO NOK;  GPIO n PWM  m1 m2, Set GPIOn output a wave: m1 is „high‟ duration and m2 is ‟low‟ duration (Time unit is „ms‟ and minimal is 10ms), Response GPIO OK or GPIO NOK;   GPIO n GET, Read GPIOn status, Response I0,I1,O0,O1, means”input low”,”input high”,”output low”,”output high” Notes: Some SW version may not include these GPIO command set.please contact with high-flying technical people. 3.10. Analog Digital Converter (ADC) Function HF-LPB200 integrate two identical ADCs (ADC0 and ADC1) which be programmed separately.The ADC is a second oeder sigma-delta converter with up to 16-bit resolution. The conversion results can be written to memory through DMA. Several modes of operation are available for the ADC. The main features of ADC are follows:  Selectable decimation rates with also set the effective resolution 910 to 16 bits); GPIO Function 1 Function 2 Default Setting Describtion GPIO7 Sleep_RQ GPIO Sleep_RQ Sleep Control Function Pins GPIO8 Sleep_ON GPIO Sleep_ON GPIO10 WPS GPIO WPS WPS functional pin GPIO11 A/D Input 1 GPIO GPIO11 16-Bits ADC input pins Dual ADC input GPIO12 A/D Input 2 GPIO GPIO12 GPIO13 OSC32K_IN GPIO GPIO13 External 32.768KHz RTC clock input option GPIO14 OSC32K_OUT GPIO GPIO14 GPIO18 PWM 1 ADC2 Vfef GPIO18 PWM functiona pins output. GPIO20 PWM 2 GPIO GPIO20 GPIO23 PWM 3 GPIO GPIO23 GPIO24 PWM 4 GPIO GPIO24 GPIO25 I2C_SCL GPIO GPIO25 I2C Bus Interface GPIO26 I2C_SDA GPIO GPIO26 GPIO27 SPI_MISO UART2_TXD GPIO27 Three Functions: <1> SPI Master/Slave <2> UART w flow ctl <3> I2S Interface GPIO28 SPI_CLK UART2_CTS GPIO28 GPIO29 SPI_CS UART2_RTS GPIO29 GPIO30 SPI_MOSI UART2_RXD GPIO30
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 27 -  Throughput rate as fast as 4uS(250KHz);  PGA setting support: 2x, 1x, and 0.5x;  Reference voltage (Vref): interface reference 1.2V;  Offset and gain calibration;  Embedded temperature sensor with internal or external diode options;  Interrupt generation and/or DMA request;  GPIO n OUT 0, Set GPIOn as output and output „0‟, Response GPIO OK or GPIO NOK;
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 28 - 4. OPERATION GUIDELINE 4.1. Configuration via Web Accessing When first use HF-LPB200 modules, user may need some configuration. User can connect to HF-LPB200 module‟s wireless interface with following default setting information and configure the module through laptop.           Table 8     HF-LPB200 Web Access Default Setting Parameters Default Setting SSID HF-LPB200 IP Address 10.10.100.254 Subnet Mask 255.255.255.0 User Name Admin Password Admin 4.1.1. Open Web Management Interface Step 1: Connect laptop to SSID “HF-LPB200” of HF-LPB200 module via wireless LAN card; Step 2: After wireless connection OK. Open Wen browser and access “http://10.10.100.254”; Step 3: Then input user name and password in the page as following and click “OK” button.  Figure 16. Open Web Management page The HF-LPB200 web management page support English and Chinese language. User can select language environment at the top right corner and click “Apply” button.  The main menu include nine pages: “System”, “Work Mode”, “STA Setting”, “AP Setting”, “Other Setting”, “Account”, “Upgrade SW”, “Restart”, “Restore”. 4.1.2. System Page At this page, user can check current device‟s important information and status such as: device ID (MID), software version, wireless work mode and related Wi-Fi parameters.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 29 -  Figure 17. System Web Page 4.1.3. Work Mode Page HF-LPB200 module can works at AP mode to simplify user‟s configuration, can also works at STA to connect remote server through AP router. Also, it can configure at AP+STA mode which provide very flexible application for customers.    Figure 18. Work Mode Page 4.1.4. STA Setting Page User can push “Scan” button to auto search Wi-Fi AP router nearby, and can connect with associate AP through some settings. Please note the encryption information input here must be fully same with Wi-Fi AP router‟s configration, and then it can link with AP correctly.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 30 -                               Figure 19. STA Setting Page 4.1.5. AP Setting Page When user select module works at AP and AP+STA mode, then need setting this page and provide wireless and network parameters. Most of the system support DHCP to achieve IP address, so we suggest to “Enable” DHCP server in most applications.  Figure 20. AP Setting Page
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 31 - 4.1.6. Other Setting Page HF-LPB200 usually works at data transparent transmission mode. At this mode, the user device which connected with HF-LPB200 will connect and communicate with remote PC or server. At this page, user need setting serial port communication parameters and defines TCP related protocal parameters.                   Figure 21. Other Setting Page 4.1.7. Account Management Page This page set web server‟s user name and password.                   Figure 22. Account Page
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 32 - 4.1.8. Upgrade Software Page User can upgrade new software (firmware) version through Wi-Fi.                   Figure 23. Upgrade SW page 4.1.9. Restart Page Most of the settting and configuration can only effective after system restart. User shall restart after finish all setting.                    Figure 24. Restart Page 4.1.10. Restore Page After module restore factory default setting, all user configuration profile will lose.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 33 - User can access http://10.10.100.254 to set again, and user name and password is “admin”. HF-LPB200 will restore to AP mode for factory default setting.                      Figure 25. Restore Page 4.2. HF-LPB200 Usage Introduction 4.2.1. Software Debug Tools High-Flying use two common software tools debugging and applying HF-LPB200 module.  (User can also select other tools used to debug serial port).  Serial Debugging Software:  ComTools           Ethernet Debugging Software: TCPUDPDbg   4.2.2. Network Connection User can select two methods to connect HF-LPB200 module base on dedicated application.  Use HF-LPB200 STA interface. HF-LPB200 and debug PC2 connect to a wireless AP, another PC1 (or user device) connect to HF-LPB200 module with serial port:  Figure 26. STA Interface Debug Connection  Use HF-LPB200 AP interface. Debug PC2 connect to HF-LPB200 through wireless connection, another PC1 (or user device) connect to HF-LPB200 module with serial port.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 34 -                    Figure 27. AP Interface Debug Connection 4.2.3. Default Parameter Setting  Default SSID: HF-LPB200;  Deault security mode: open,none;  User UART parameter setting:115200,8,1,None;  Default network parameter setting:TCP,Server,8899,10.10.100.254;  Module IP address: dhcp,0.0.0.0,0.0.0.0,0.0.0.0; 4.2.4. Module Debug PC1 open “CommTools” program, setting the same serial port parameters with HF-LPB200 module and open serial port connection.   Figure 28. “CommTools” Serial Debug Tools PC2 open “TCPUDPDbg” program, and create a new connection. If HF-LPB200 configured as Server mode, “TCPUDPDbg” Tools shall create “Client “mode connection. Or otherwise, create a “Server” mode connection.    Figure 29.  “TCPUDPDbg” Tools Create Connection
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 35 - Then setting the TCP/UDP connection parameters. Default as following:   Figure 30.  “TCPUDPDbg” Tools Setting Then, click “Create” button to create a connection.                              Figure 31.  “TCPUDPDbg” Tools Connection Now, in transparent transmission mode, data can be transferred from “CommTools” program to “TCPUDPDbg” program, or in reverse. You can see data in receiver side will keep same as in sender side. 4.3. Typical Application Examples 4.3.1. Wireless Control Application     Figure 32. Wireless Control Application
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 36 - For this wireless control application, HF-LPB200 works as Ad-Hoc mode. Module‟s serial port connects to user device. So, control agent (Smart phone for this example) can manage and control the user device through the wireless connection with HF-LPB200 module. 4.3.2. Remote Management Application  Figure 33. Remote Management Application For this remote management application, HF-LPB200 works as STA mode and connects to Internet through wireless AP. Module configured as TCP Client and communicates with remote TCP server at Internet. Module‟s serial port connects to user device.   So, user device‟s data or sampling information can send to remote TCP server for storage or processing. Also remote TCP server can send command to control and manage the user device through the wireless network. 4.3.3. Transparent Serial Port Application For this transparent serial port application, two HF-LPB200 modules connect as below figures to build up a transparent serial port connection. HF-LPB200 works as Ad-Hoc mode to connect each other.   Figure 34. Transparent Serial Port Application
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 37 - 5. AT+INSTRUCTION INTRODUCTION 5.1. Configuration Mode When HF-LPB200 power up, it will default works as transparent transmission mode, then user can switch to configuration mode by serial port command. HF-LPB200 UART default parameters setting as below figure,                                Figure 35. HF-LPB200 Default UART Port Parameters In configuration mode, user can setting the module through AT+ instruction set, which cover all web page setting function. 5.1.1. Switch to Configuration Mode Two steps to finish switching from transparent transmission mode to configuration mode.   UART input “+++”, after module receive “+++”, and feedback “a” as confirmation.  UART input “a”, after module receive “a” and feedback “+ok” to go into AT+ instruction set configuration mode.  Figure 36. Switch to Configuration Mode Notes: 1. When user input “+++” (No “Enter” key required), the UART port will display feedback information “a”, and not display input information”+++” as above UART display. 2. Any other input or wrong step to UART port will cause the module still works as original mode (transparent transmission).
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 38 - 5.2. AT+ Instruction Set Overview  User can input AT+ Instruction through hyper terminal or other serial debug terminal, also can program the AT+ Instruction to script. User can also input “AT+H” to list all AT+ Instruction and description to start.           Figure 37. ”AT+H” Instruction for Help 5.2.1. Instruction Syntax Format AT+Instruction protocol is based on the instruction of ASCII command style, the description of syntax format as follow.  Format Description  < >:  Means the parts must be included  [ ]:    Means the optional part   Command Message  AT+<CMD>[op][para-1,para-2,para-3,para-4…]<CR>   AT+:    Prefix of command message;  CMD:   Command string;  [op]:     Symbol of command operator,  “=” : The command requires parameters input;  “NULL”: Query the current command parameters setting;  [para-n]: Parameters input for setting if required;  <CR>:”Enter” Key, it‟s 0x0a or 0x0d in ASCII;
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 39 - Notes:  When input AT+Instruction, “AT+<CMD>” character will display capital letter automatic and other parts will not change as you input.   Response Message  +<RSP>[op] [para-1,para-2,para-3,para-4…]<CR><LF><CR><LF>   +: Prefix of response message;  RSP: Response string;  “ok” : Success  “ERR”: Failure  [op] : =  [para-n]: Parameters if query command or Error code when error happened;  <CR>:  ASCII  0x0d;  <LF>:   ASCIII  0x0a;   Error Code Table 9     Error Code Describtion Error Code Description -1 Invalid Command Format -2 Invalid Command -3 Invalid Operation Symbol -4 Invalid Parameter -5 Operation Not Permitted 5.2.2. AT+ Instruction Set Table 10     AT+ Instruction Set List Instruction Description <null> NULL Managment Instruction Set E Open/Close show back function WMODE Set/Query Wi-Fi work mode (AP/STA/APSTA) ENTM Set module into transparent transition mode TMODE Set/Query module data transfer mode MID Query module ID information VER Query module software version information RELD Restore to factory default setting Z Re-start module H Help Configure Parameters Instruction Set CFGRD Batch Read User Configure Parameters CFGWR Batch Write Configure Parameters CFGFR Batch Read Factory Default Configure Parameters CFGTF Copy User Parameters to Factory Default Parameters
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 40 - UART Instruction Set UART Set/Query serial port parameters UARTTE Set/Query UART free-frame triggerf time between two bytes  Command Mode Set SEND Send Data at Command Mode RECV Receive Data at Command Mode Network Instruction Set  PING Network ”Ping” Instruction NETP Set/Query network protocol parameters TCPLK Query if TCP link already build-up TCPTO Set/Query TCP timeout TCPDIS Open/Close TCP link Wi-Fi STA Instruction Set (Effective when module works as STA) WSKEY Set/Query STA security parameters WSSSID Set/Query associated  AP SSID parameters WANN Set/Query STA‟s network parameters WSMAC Query STA‟s MAC address WSLK Query STA Wi-Fi link status WSLQ Query STA Wi-Fi signal strength WSCAN Scan AP WSDNS Set/Query STA‟s Static DNS server address Wi-Fi AP Instruction Set (Effective when module works as AP) LANN Set/Query AP‟s network parameters WAP Set/Query AP Wi-Fi parameters WAKEY Set/Query AP security parameters WAMAC Set/Query AP MAC address WADHCP Set/Query AP DHCP Server status WADMN Set/Query AP webpage domain name Webpage Management Instruction Set WEBSWITCH Set Webpage Option PLANG Set/Query Webpage Language Option WEBU Set/Query Webpage User name and Code Remote Upgrade Instruction Set UPURL Set/Query remote upgrade URL address UPFILE Set/Query remote upgrade configure file name UPST Start remote upgrade Power Management Instruction Set MSLP Set power save mode parameters Others Instruction Set WRMID Set module ID ASWD Set/Query WiFi configuration code 5.2.2.1. AT+E  Function: Open/Close show back function;  Format: AT+E<CR>     +ok<CR>< LF ><CR>< LF >
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 41 - When HF-LPB200 module firstly switch from transparent transmission to configuration mode, show back status is open, input “AT+E” to close show back function, input“AT+E” again to open show back function. 5.2.2.2. AT+WMODE  Function: Set/Query WIFI work mode;  Format:  Query Operation           AT+WMODE<CR>      +ok=<mode><CR>< LF ><CR>< LF >  Set Operation AT+ WMODE=<mode><CR>      +ok<CR>< LF ><CR>< LF >  Parameters:  mode:Wi-Fi work mode  AP  STA  APSTA 5.2.2.3. AT+ENTM  Function: Set module into transparent transmition mode;  Format:     AT+ENTM<CR>     +ok<CR>< LF ><CR>< LF > When operate this command, module switch from configuration mode to transparent transmission mode. 5.2.2.4. AT+TMODE  Function: Set/Query module data transfer mode.  Format:  Query Operation           AT+TMODE<CR>          +ok=<tmode><CR>< LF ><CR>< LF >  Set Operation          AT+TMODE=<tmode><CR>    +ok<CR>< LF ><CR>< LF >  Parameters:   tmode: data transfer mode, include:  throughput  cmd 5.2.2.5. AT+MID  Function: Query module ID information;  Format:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 42 -  Query Operation AT+MID<CR> +ok=<module_id><CR>< LF ><CR>< LF >  Parameters:  module_id:  Module ID information;  HF-LPB200; Notes: User can set this parameter through AT+WRMID. 5.2.2.6. AT+VER    Function: Query module software version information;  Format:  Query Operation AT+VER<CR> +ok=<ver><CR>< LF ><CR>< LF >  Parameters:  ver: Module software version information; 5.2.2.7. AT+RELD  Function: module restore to factory default setting;  Format:  Set Operation AT+ RELD<CR> +ok=rebooting…<CR>< LF ><CR>< LF > When operate this command, module will restore to factory default setting and reboot. 5.2.2.8. AT+Z  Function: Re-start module;  Format: AT+ Z<CR> 5.2.2.9. AT+H  Function: Help;  Format:  Query Operation AT+H<CR> +ok=<command help><CR>< LF ><CR>< LF >  Parameters:  command help: command introduction; 5.2.2.10. AT+CFGRD  Function: Batch Read User Configure Parameters;  Format:  Query Operation          AT+CFGRD<CR>
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 43 -     +ok=<config><CR>< LF ><CR>< LF >  Parameters:  config: the first two bytes means the length of configuration parameters; 5.2.2.11. AT+CFGWR  Function: Batch Write User Configure Parameters;  Format:  Set Operation          AT+CFGWR=<config><CR>          +ok<CR>< LF ><CR>< LF >  Parameters:  config: the first two bytes means the length of configuration parameters; 5.2.2.12. AT+CFGFR  Function: Batch Read Factory Default Configure Parameters;  Format:  Query Operation          AT+CFGFR<CR>     +ok=<config><CR>< LF ><CR>< LF >  Parameters:  config: the first two bytes means the length of configuration parameters; 5.2.2.13. AT+CFGTF  Function: Copy User Parameters to Factory Default Parameters;  Format:  Query Operation          AT+CFGTF<CR>     +ok=<status><CR>< LF ><CR>< LF >  Parameters:  status: feedback operation status; 5.2.2.14. AT+UART  Function: Set/Query serial port parameters;  Format:  Query Operation AT+UART<CR>      +ok=<baudrate,data_bits,stop_bit,parity><CR>< LF ><CR>< LF >  Set Operation AT+UART=<baudrate,data_bits,stop_bit,parity><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  baudrate:  300,600,1200,1800,2400,4800,9600,19200,38400,57600,115200.  data_bits:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 44 -  8  stop_bits:  1,2  parity:  NONE  EVEN  ODD  Flowctrl: (CTSRTS)   NFC: No hardware flow control  FC:  hardware flow control 5.2.2.15. AT+ UARTTE   Function: Set/Query UART free-frame trigger time between two bytes;  Format:  Query Operation AT+ UARTTE<CR> +ok=<mode><CR>< LF ><CR>< LF >  Set Operation AT+ UARTTE=<mode><CR>    +ok<CR>< LF ><CR>< LF >  Parameters:  mode:   fast: free-frame trigger time between two bytes is 10ms;  normal: free-frame trigger time between two bytes is 50ms; 5.2.2.16. AT+ SEND  Function: Send Data at Command Mode.  Format:     AT+SEND=<data_lenth, data_content><CR>     +ok<CR>< LF ><CR>< LF >  Parameters:  data_lenth: Lenth of send data. Range: 0~1000 Byte   data_content: contents of send data.     When two parameters conflict, select smaller value to send data. 5.2.2.17. AT+ RECV  Function: Receive Data at Command Mode.  Format:     AT+RECV=<data_lenth><CR>     +ok=< data_lenth, data_content><CR>< LF ><CR>< LF >  Parameters:  data_lenth: Lenth of receive data. Range: 0~1000 Byte   data_content: contents of receive data.     If not receive any data in 3 second, then feedback +ok=0.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 45 - 5.2.2.18. AT+ PING  Function: Network “PING” Instruction.  Format:  Set Operation AT+ PING=<IP_address ><CR>    +ok=<sta><CR>< LF ><CR>< LF >  Parameters:  sta: feedback result   Success  Timeout  Unknown host 5.2.2.19. AT+NETP  Function: Set/Query network protocol parameters;  Format:  Query Operation          AT+NETP<CR>     +ok=<protocol,CS,port,IP><CR>< LF ><CR>< LF >  Set Operation AT+NETP=<protocol,CS,port,IP><CR>     +ok<CR>< LF ><CR>< LF >  Parameters:  protocol:  TCP  UDP  CS: Network mode:  SERVER  CLIENT  Port: protocol port ID: Decimal digit and less than 65535  IP: Server‟s IP address when module set as client 5.2.2.20. AT+ TCPLK  Function: Query if TCP link already build-up;  Format: AT+ TCPLK<CR> +ok=<sta><CR>< LF ><CR>< LF >  Parameters:  sta.: if module already setup TCP link;  on: TCP link setup;  off: TCP link not setup; 5.2.2.21. AT+ TCPTO  Function: Set/Query TCP timeout;
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 46 -  Format:  Query Operation AT+ TCPTO<CR> +ok=<time><CR>< LF ><CR>< LF >  Set Operation AT+ TCPTO=<time ><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  time: TCP timeout time.  <= 600, (600s);  >=0, (0 means no timeout);  Default, 300s; 5.2.2.22. AT+TCPDIS  Function: Open/Close TCP link;  Format:  Query Opera          AT+TCPDIS<CR>     +ok=<sta><CR>< LF ><CR>< LF >  Set Operation            AT+ TCPDIS =<on/off><CR>     +ok<CR>< LF ><CR>< LF >  Parameters: When query, sta.: Feedback if TCP Client can be link,      On,  TCP link close      off,TCP link on When setting, “off” means close TCP link. After finish this command, module disconnect TCP link and not connect again. “On” means open TCP link. After finish this command, module re-connect TCP server right away. 5.2.2.23. AT+WSSSID  Function: Set/Query Wi-Fi associated AP SSID parameters.  Format:  Query Operation AT+WSSSID<CR> +ok=<ap’s ssid><CR>< LF ><CR>< LF >  Set Operation AT+ WSSSID=<ap’s ssid ><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  ap‟s ssid: AP‟s SSID (Within 32 character); 5.2.2.24. AT+WSKEY  Function: Set/Query STA security parameters;
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 47 -  Format:  Query Operation         AT+WSKEY<CR> +ok=<auth,key><CR>< LF ><CR>< LF >  Set Operation AT+ WSKEY=< auth,encry,key><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  auth: Authentication mode  OPEN   SHARED  WPAPSK  WPA2PSK  encry:Encryption algorithm  NONE: When “auth=OPEN”, effective  WEP:   When “auth=OPEN” or “SHARED”, effective  TKIP:   When ”auth= WPAPSK” or “WPA2PSK”, effective  AES:    When “auth= WPAPSK” “WPA2PSK”, effective  key: password, ASCII code, shall less than 64 bit and greater than 8bit 5.2.2.25. AT+ WANN  Function: Set/Query STA network setting;  Format:  Query Operation AT+WANN<CR> +ok=<mode,address,mask,gateway><CR>< LF ><CR>< LF >  Set Operation AT+ WANN=< mode,address,mask,gateway ><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  mode: STA‟s IP network setting  static:   Static IP   DHCP:  Dynamic IP  address: STA IP address;  mask: STA subnet mask;  gateway: STA gateway address; 5.2.2.26. AT+ WSMAC  Function: Query STA MAC address parameters;  Format:  Query Operation              AT+WSMAC<CR>              +ok=<mac_address><CR>< LF ><CR>< LF >  Parameters:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 48 -  code:  security code  8888 (default value)  Mac_address: STA MAC address, such as ACCF23FF1234 5.2.2.27. AT+ WSLK  Function: Query STA WiFi link status  Format:  Query Operation AT+ WSLK<CR> +ok=<ret><CR>< LF ><CR>< LF >  Parameters:  ret  ”Disconnected”, if no WiFi connection;  ”AP‟ SSID(AP‟s MAC” ), if WiFi connection available;  ”RF Off”, if WiFi OFF; 5.2.2.28. AT+ WSLQ  Function: Query STA WiFi signal strength;  Format:  Query Operation AT+ WSLQ<CR> +ok=<ret><CR>< LF ><CR>< LF >  Parameters:  ret  ”Disconnected”, if no WiFi connection;  ”AP‟s WiFi signal strength” , if WiFi connection available; 5.2.2.29. AT+WSCAN  Function: Scan AP;  Format: AT+ WSCAN<CR> +ok=<ap_site><CR>< LF ><CR>< LF >  Parameters:  ap_site: AP searched; 5.2.2.30. AT+ WSDNS  Function: Set/Query STA static DNS server address;  Format:  Query Operation              AT+WSDNS<CR>         +ok=<address><CR>< LF ><CR>< LF >  Set Operation               AT+ WSDNS =<address><CR>               +ok<CR>< LF ><CR>< LF >
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 49 -  Parameters:  address:  STA‟s DNS server address; Effective right away. 5.2.2.31. AT+ LANN  Function: Set/Query AP‟s network parameters;  Format:  Query Operation AT+LANN<CR> +ok=<ipaddress,mask><CR>< LF ><CR>< LF >  Set Operation AT+ LANN=< ipaddress,mask><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  ipaddress: AP‟s IP address;  mask: AP‟s net mask; 5.2.2.32. AT+WAP  Function: Set/Query AP Wi-Fi parameters;  Format:  Query Operation          AT+WAP<CR>     +ok=<wifi_mode,ssid,channel><CR>< LF ><CR>< LF >  Set Operation AT+ WAP =<wifi_mode,ssid,channel><CR>     +ok<CR>< LF ><CR>< LF >  Parameters:  wifi_mode: Wi-Fi mode, include:  11BGN  (Default Value)  ssid:SSID at AP mode  channel: Wi-Fi channel selection:   AUTO  CH1~CH11; (Default CH1)  5.2.2.33. AT+WAKEY  Function: Set/Query AP Wi-Fi secruity  parameters;  Format:  Query Operation AT+WAKEY<CR> +ok=<auth,key><CR>< LF ><CR>< LF >  Set Operation AT+ WAKEY=< auth,encry,key><CR> +ok<CR>< LF ><CR>< LF >  Parameters:  auth: include
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 50 -  OPEN   WPA2PSK  Encry: include  NONE: When “auth=OPEN” available;  AES:    When “auth=WPA2PSK” available;  key:  security code, ASCII code, smaller than  64bit and bigger than 8 bit; 5.2.2.34. AT+WAMAC  Function:  Query AP MAC address parameters;  Format:  Query Operation AT+WAMAC<CR> +ok=<mac_address><CR>< LF ><CR>< LF >  Parameters:  mac_address:AP‟s MAC address; Note: Module AP mode‟s MAC address is related to STA mode‟s MAC address. If user need changeto others, please contact with high-flying technical people. 5.2.2.35. AT+WADHCP  Function: Set/Query AP DHCP server status;  Format:  Query Operation AT+WADHCP<CR> +ok=<status><CR>< LF ><CR>< LF >  Set Operation  AT+ WADHCP=<status><CR>  +ok<CR>< LF ><CR>< LF >  Parameters:   status:AP’s DHCP server function status:  on:DHCP Server Open;  off:DHCP Server Close: 5.2.2.36. AT+WADMN  Function: Set/Query AP webpage domain name;  Format:  Query Operation            AT+WADMN<CR>           +ok=<domain_name><CR>< LF ><CR>< LF >  Set Operation  AT+ WADMN =<domain_name><CR>  +ok<CR>< LF ><CR>< LF >  Parameters:  Domain_name: Webpage domain name (within 20 characters, can‟t all numbers).
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 51 - 5.2.2.37. AT+PLANG  Function: Set/ Query webpage language option;  Format:  Query Operation AT+ PLANG<CR> +ok=<language> <CR>< LF ><CR>< LF >  Set Operation AT+ PLANG=<language> <CR> +ok<CR>< LF ><CR>< LF >  Parameters:   language: webpage’s language  CN:  Chinese Version (Default);  EN:  English Version; 5.2.2.38. AT+UPURL  Function: Set/ Query remote upgrade URL address;  Format:  Query Operation AT+ UPURL<CR> +ok=<url> <CR>< LF ><CR>< LF >  Set Operation AT+ UPURL=<url,filename> <CR> +ok<CR>< LF ><CR>< LF >  Parameters:   url: the upgrade file url address; the last charter shall be “/” (within 20 characters).  filename: the upgrade file name, it’s optional and not saved parameter. If provide this file name here, the module will start upgrade right away; 5.2.2.39. AT+UPFILE  Function: Set/ Query remote upgrade configure file name;  Format:  Query Operation AT+ UPFILE<CR> +ok=<filename> <CR>< LF ><CR>< LF >  Set Operation AT+ UPFILE=<filename> <CR> +ok<CR>< LF ><CR>< LF >  Parameters:   filename: the upgrade configure file name (within 20 characters). 5.2.2.40. AT+UPST  Function: Start remote upgrade;  Format:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 52 -  Query Operation AT+ UPST<CR> +ok=<log> <CR>< LF ><CR>< LF >  Parameters:   log: feedback the status of remote upgrade;                Note: After execute this command, the HF-LPB200 will automatic start upgrade base on the                setting of UPURL, UPFILE command contents;  5.2.2.41. AT+WEBU  Function: Set/ Query webpage user name and password;  Format:  Query Operation AT+ WEBU<CR> +ok=<username,password> <CR>< LF ><CR>< LF >  Set Operation AT+ WEBU=<username,password><CR> +ok<CR>< LF ><CR>< LF >  Parameters:   username: User Name, within 15 characters, not support empty.   password: password, within 15 characters, support empty.  5.2.2.42. AT+MSLP  Function: Set power save mode (Wi-Fi wake  up and deep sleep) parameters;  Format:  Set Operation AT+ MSLP=<mode, mask, timeout><CR>< LF ><CR>< LF >  Parameters:   mode, power save mode  standby:  Wi-Fi wakeup mode;  dslp: Deep Sleep Mode;  mask (only available at standby mode): Wi-Fi wake  up condition. This is multiple-choice option, “1111” mean slect all wake up condition.  0001: broadcast;  0010: unicast;  0100: mac event;  1000: multicast;  timeout:  timer wakeup parameters, after this time, module will wake up. Unit: second.  0:  wake up trigger no related to timer;  >1s:   5.2.2.43. AT+WRMID  Function: Set module ID;  Format:
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 53 -  Set Operation AT+ WRMID=<wrmid> <CR>< LF ><CR>< LF >  Parameters:   wrmid: set module‟s ID (within 20 characters).   5.2.2.44. AT+ASWD  Function: Set/Query WiFi Configuration Password;  Format:  Query Operation AT+ ASWD<CR> +ok=<aswd> <CR>< LF ><CR>< LF >  Set Operation AT+ ASWD=<aswd> <CR>< LF ><CR>< LF >  Parameters:   aswd: WiFi Configuration Password (within 20 characters).
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 54 - 6. PACKAGE INFORMATION 6.1. Recommended Reflow Profile  Figure 38. Reflow Soldering Profile Table 11   Reflow Soldering Parameter      Note:  1. Recommend to supply N2 for reflow oven. 2. N2 atmosphere during reflow (O2<300ppm)  6.2. Device Handling Instruction (Module IC SMT Preparation) 1. Shelf life in sealed bag: 12 months, at <30℃ and <60% relative humidity (RH)  2. After bag is opened, devices that will be re-baked required after last baked with window time 168 hours. 3. Recommend to oven bake with N2 supplied  4. Recommend end to reflow oven with N2 supplied  5. Baked required with 24 hours at 125+-5℃ before rework process for two modules, one is new module and two is board with module  6. Recommend to store at ≦10% RH with vacuum packing  7. If SMT process needs twice reflow:   (1) Top side SMT and reflow  (2) Bottom side SMT and reflow  Case 1: Wifi module mounted on top side. Need to bake when bottom side process over 168 hours window time, no need to bake within 168 hours  Case 2: Wifi module mounted on bottom side, follow normal bake rule before process  Note: Window time means from last bake end to next reflow start that has 168 hours space.     NO. Item Temperature (Degree) Time(Sec) 1 Reflow Time       Time of above 220 35~55 sec 2 Peak-Temp                 260 max
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 55 - 6.3. Shipping Information             TRAY                                                                                  BOX         Size: 420*245*34 mm                                                     Size: 422*247*72 mm (inside)                                CARTON                 Size: 440*260*320 mm (inside)       Figure 39. Shipping Information Note:               1 tray = 5*20pcs = 100 pcs          1 box = 2 trays = 2 * 100 pcs = 200pcs           1 carton = 4 boxes = 4 * 200 pcs = 800pcs
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 56 - APPENDIX A: HW REFERENCE DESIGN       Detailed HF-LPB200 Evluation Board design source files, pls access High-Flying web download page or contact with High-Flying technical support people to acquire.
HF-LPB200 Low Power WiFi Module User Manual Shanghai High-Flying Electronics Technology Co., Ltd www.hi-flying.com   - 57 - APPENDIX B: CONTACT INFORMATION  ------------------------------------------------------------------------------------------------------------ Address:  Room.511/510, Building 7, No.365, Chuanhong Road, Pudong New Area, Shanghai, China, 201202 Web:        www.hi-flying.com Service Online:  400-189-3108 Sales Contact: sales@hi-flying.com -----------------------------------------------------------------------------------------------------------   For more information about High-Flying modules, applications, and solutions, please visit our web site http://www.hi-flying.com/en/     END OF DOCUMENT         © Copyright High-Flying, May, 2011 The information disclosed herein is proprietary to High-Flying and is not to be used by or disclosed to unauthorized persons without the written consent of High-Flying. The recipient of this document shall respect the security status of the information. The master of this document is stored on an electronic database and is “write-protected” and may be altered only by authorized persons at High-Flying. Viewing of the master document electronically on electronic database ensures access to the current issue. Any other copies must be regarded as uncontrolled copies.
FCC STATEMENT 1. 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. (2) This device must accept any interference received, including interference that may cause undesired operation. 2. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.  NOTE: 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 or more 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.   FCC Radiation Exposure Statement This equipment complies with FCC 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

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