High Flying Electronics Technology HF-LPB130 Wi-Fi Module User Manual GPON SFU System Design

Download:
Mirror Download [FCC.gov]
Document ID	3790451
Application ID	oX53UVFCtpmsWmENT+8Ghw==
Document Description	Users Manual
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	190.66kB (2383277 bits)
Date Submitted	2018-03-21 00:00:00
Date Available	2018-03-21 00:00:00
Creation Date	2018-03-21 21:47:25
Producing Software	GPL Ghostscript 9.21
Document Lastmod	2018-03-21 21:47:25
Document Title	GPON SFU System Design
Document Creator	Adobe Acrobat Pro 9.0.0
Document Author:	Kevin Qiu

HF-LPB130 Low Power WiFi Module User Manual
HF-LPB130
User Manual
V 1.3
Overview of Characteristic

Support IEEE802.11b/g/n Wireless Standards

Based on Cortex-M4 SOC, 160MHz CPU, 352KB RAM for 1MB Flash Version, 448KB RAM
for 4MB Flash Version

Support UART Data Communication Interface

Support Work As STA/AP/AP+STA Mode

Support Smart Link Function (APP program provide)

Support WeChat Airkiss 2.0

Support Wireless and Remote Firmware Upgrade Function

HF-LPB130

Single +3.3V Power Supply

Small Size:

HF-LPB130

FCC/CE/SRRC/RoHS Certificated
PCB Antenna
23.1mm x 32.8mm x 3.5mm,SMT34 package
High-Flying Electronics Technology Co., Ltd.(www.hi-flying.com)
-1-
HF-LPB130 Low Power WiFi Module User Manual
TABLE OF CONTENTS
LIST OF FIGURES ...................................................................................................................................4
LIST OF TABLES ....................................................................................................................................5
HISTORY ..................................................................................................................................................6
1.
PRODUCT OVERVIEW ................................................................................................................7
1.1.
1.1.1
Key Application ...................................................................................................................7
1.1.2
Device Paremeters .............................................................................................................8
1.2.
2.
Hardware Introduction .............................................................................................................9
1.2.1.
HF-LPB130 Pins Definition .................................................................................................9
1.2.2.
Electrical Characteristics ..................................................................................................12
1.2.3.
HF-LPB130 Mechanical Size ............................................................................................12
1.2.4.
HF-LPB130 On-board PCB Antenna ................................................................................13
1.2.5.
External Antenna ..............................................................................................................13
1.2.6.
Evaluation Kit ....................................................................................................................13
1.2.7.
Hardware Typical Application ...........................................................................................15
FUNCTIONAL DESCRIPTION ..................................................................................................17
2.1.
3.
General Description .................................................................................................................7
Wireless Networking ..............................................................................................................17
2.1.1.
Basic Wireless Network Based On AP .............................................................................17
2.1.2.
Wireless Network Based On STA .....................................................................................17
2.2.
Work Mode : Transparent Transmission Mode ...................................................................18
2.3.
Encryption ..............................................................................................................................18
2.4.
Parameters Configuration .....................................................................................................18
2.5.
Firmware Update ....................................................................................................................19
2.6.
SOCKET B Function ..............................................................................................................19
2.7.
Multi-TCP Link Connection ...................................................................................................19
OPERATION GUIDELINE ..........................................................................................................21
3.1.
Configuration ..........................................................................................................................21
3.1.1.
Open Web Management Interface ...................................................................................21
3.1.2.
System Page.....................................................................................................................22
3.1.3.
Work Mode Page ..............................................................................................................23
3.1.4.
STA Setting Page .............................................................................................................23
3.1.5.
AP Setting Page ...............................................................................................................25
3.1.6.
Other Setting Page ...........................................................................................................25
3.1.7.
Account Management Page .............................................................................................26
3.1.8.
Upgrade Software Page ...................................................................................................26
3.1.9.
Restart Page .....................................................................................................................26
3.1.10.
Restore Page ................................................................................................................27
3.1.11.
Internal Webpage ..........................................................................................................27
High-Flying Electronics Technology Co., Ltd.(www.hi-flying.com)
-2-
HF-LPB130 Low Power WiFi Module User Manual
3.2.
Usage Introduction ................................................................................................................28
3.2.1.
Software Debug Tools ......................................................................................................28
3.2.2.
Network Connection .........................................................................................................28
3.2.3.
Default Parameter Setting ................................................................................................28
3.2.4.
Module Debug...................................................................................................................29
3.3.
Typical Application Examples ..............................................................................................30
3.3.1.
Wireless Control Application .............................................................................................30
3.3.2.
Remote Management Application.....................................................................................31
3.3.3.
Transparent Serial Port Application ..................................................................................31
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-3-
HF-LPB130 Low Power WiFi Module User Manual
LIST OF FIGURES
Figure 1.
HF-LPB130 Appearance ........................................................................................................9
Figure 2.
HF-LPB130 Pins Map ...........................................................................................................10
Figure 3.
HF-LPB130 Mechanical Dimension .....................................................................................12
Figure 4.
Suggested Module Placement Region .................................................................................13
Figure 5.
HF-LPT230 EVK ...................................................................................................................14
Figure 6.
HF-LPT130A EVK ................................................................................................................14
Figure 7.
HF-LPB130 Order InformationTypical Application ...............................................................15
Figure 8.
HF-LPB130 Hardware Typical Application ...........................................................................15
Figure 9.
HF-LPB130 Basic Wireless Network Structure ....................................................................17
Figure 10.
HF-LPB130 STA Network Structure .................................................................................17
Figure 11.
Socket B function demo ....................................................................................................19
Figure 12.
Multi-TCP Link Data Transmition Structure ......................................................................20
Figure 13.
Open Web Management page ..........................................................................................21
Figure 14.
1MB Flash Version webpage ............................................................................................22
Figure 15.
System Web Page ............................................................................................................22
Figure 16.
Work Mode Page ..............................................................................................................23
Figure 17.
STA Setting Page .............................................................................................................24
Figure 18.
STA Scan Page ................................................................................................................24
Figure 19.
AP Setting Page ...............................................................................................................25
Figure 20.
Other Setting Page ...........................................................................................................25
Figure 21.
Account Page....................................................................................................................26
Figure 22.
Upgrade SW page ............................................................................................................26
Figure 23.
Restart Page .....................................................................................................................27
Figure 24.
Restore Page ....................................................................................................................27
Figure 25.
Internal Webpage .............................................................................................................28
Figure 26.
STA Interface Debug Connection .....................................................................................28
Figure 27.
AP Interface Debug Connection .......................................................................................28
Figure 28.
“CommTools” Serial Debug Tools ....................................................................................29
Figure 29.
“TCPUDPDbg” Tools Create Connection .........................................................................29
Figure 30.
“TCPUDPDbg” Tools Setting ............................................................................................30
Figure 31.
“TCPUDPDbg” Tools Connection .....................................................................................30
Figure 32.
Wireless Control Application .............................................................................................30
Figure 33.
Remote Management Application.....................................................................................31
Figure 34.
Transparent Serial Port Application ..................................................................................31
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-4-
HF-LPB130 Low Power WiFi Module User Manual
LIST OF TABLES
Table1.
HF-LPB130 Module Technical Specifications ........................................................................8
Table2.
HF-LPB130 Pins Definition ...................................................................................................10
Table3.
Absolute Maximum Ratings: .................................................................................................12
Table4.
Power Supply & Power Consumption: .................................................................................12
Table5.
HF-LPB130 External Antenna Parameters ..........................................................................13
Table6.
HF-LPB130 Evaluation Kit Interface Description .................................................................14
Table7.
HF-LPB130 Web Access Default Setting .............................................................................21
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-5-
HF-LPB130 Low Power WiFi Module User Manual
HISTORY
Ed. V0.2 07-25-2017
Internal Version.
Ed. V0.2 08-22-2017
Release Version
Ed. V1.1 13-10-2017
Add HF-LPT130A type module
Ed. V1.2 10-11-2017
Add HF-LPB130 type module
Ed. V1.3 03-01-2018
Update HF-LPT230 Pin，webpage config.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-6-
HF-LPB130 Low Power WiFi Module User Manual
1. PRODUCT OVERVIEW
1.1. General Description
The HF-LPB130 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 interface for data transfer.HFLPB130 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.
The HF-LPB130 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.
1.1.1 Key Application

Remote equipment monitoring

Asset tracking and telemetry

Security

Industrial sensors and controls

Home automation

Medical devices
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-7-
HF-LPB130 Low Power WiFi Module User Manual
1.1.2 Device Paremeters
Table1.
Class
HF-LPB130 Module Technical Specifications
Item
Parameters
Certification
Wireless standard
Frequency range
FCC/CE/SRRC/RoHS
802.11 b/g/n
2.412GHz-2.462GHz
802.11b: +16 +/-2dBm (@11Mbps)
RF Power
802.11g: +15 +/-2dBm (@54Mbps)
802.11n: +15 +/-2dBm (@HT20, MCS7)
Wireless
Parameters
Antenna Option
Data Interface
PCB antenna
UART
GPIO,SPI
Operating Voltage
Operating Current
Hardware
Parameters
Peak (Continuous TX): 260Ma
Average(STA, No data): 27mA
Average(STA, Continuous TX): 35mA
Average(AP): 80mA
Operating Temp.
-25℃- 85℃
Storage Temp.
-40℃- 125℃
Dimensions and Size
23.1mm x 32.8mm x 3.5mm
Network Type
STA/AP/AP+STA
Security Mechanisms
WEP/WPA-PSK/WPA2-PSK
Encryption
Software
Parameters
2.9~3.6V
WEP64/WEP128/TKIP/AES
Update Firmware
Local Wireless, Remote OTA
Customization
Support SDK for application develop
Network Protocol
IPv4, TCP/UDP/HTTP/TLS(SDK)
User Configuration
AT+instruction set. Android/ iOS
Smart Link APP tools
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-8-
HF-LPB130 Low Power WiFi Module User Manual
1.2. Hardware Introduction
HF-LPB130 Wi-Fi module appearance is as following.
Figure 1.
1.2.1.
HF-LPB130 Appearance
HF-LPB130 Pins Definition
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
-9-
HF-LPB130 Low Power WiFi Module User Manual
Figure 2.
Table2.
HF-LPB130 Pins Map
HF-LPB130 Pins Definition
Pin
Describtion
Net Name
1,17,18,34
Ground
GND
N.C
N.C
Signal
Type
Power
Comments
GPIO21
GPIO21
I/O
Output Low when boot
GPIO5
GPIO5
IPD/O
Can be used as SPI_CS
GPIO4
GPIO4
IPD/O
Can be used as SPI_CLK
ADC
ADC
IPD/O
GPADC0,ADC Function
9,20
N.C
+3.3V Power
10
DVDD
Power
N.C
11
GPIO3
GPIO3
IPU/O
12
GPIO7
GPIO7
IPD/O
13
GPIO13
GPIO13
I/O
14
GPIO12
GPIO12
IPD/O
15
GPIO0
GPIO0
I/O
16
GPIO9
GPIO9
I/O
19
UART1_RXD
UART0_CTS
21
UART1_TXD
UART0_RTS
22
USB_DN
USB_DN
23
USB_DP
USB_DP
24
There will be 2ms output low when
bootup, after then it works as input
pull high.
Can be used as PWM4
Can be used as SPI_MISO
Can be used as SPI_MOSI
3.3V UART1 Debug Input
GPIO26, Leave it if not use
Detailed functions see 
3.3V UART1 Debug Output
GPIO27, Leave it if not use
Detailed functions see 
N.C
25
UART0
UART0_TX
26
UART0_RTS
UART0_RTS
IPU/O
27
UART0
UART0_RX
28
UART0_CTS
UART0_CTS
IPU/O
29
Wi-Fi Status
nLink
IPD/O
30
Module Boot Up
Indicator
nReady
IPU/O
3.3V UART0 Communication
Output
GPIO2
GPIO23, PWM1
3.3V UART0 Communication Input
GPIO1
GPIO22, PWM0
“0” – Wi-Fi connect to router
“1” – Wi-Fi unconncted;
Detailed functions see 
GPIO8
“0” – Boot-up OK;
“1” – Boot-up No OK;
GPIO24, PWM2
Shanghai High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 10 -
HF-LPB130 Low Power WiFi Module User Manual
Pin
Describtion
Net Name
31
Multi-Function
nReload
32
33
Signal
Type
IPU/O
Comments
Detailed functions see 
GPIO25, PWM3
N.C
Module Reset
EXT_RESETn
I,PU
“Low” effective reset input.
There is RC reset circuit
internally. External pull-up
resistor is not allowed.

I — Input O — Output
PU—Internal Resistor Pull Up
I/O: Digital I/O
Power—Power
Supply nReload Pin (Button) function
1.
When this pin is set to “low” during module boot up, the module will enter wireless
firmware and config upgrade mode. This mode is used for customer manufacture.
(See Appendix to download software tools for customer batch configuration and
upgrade firmware during mass production)
2.
After module is powered up, short press this button ( “Low” < 2s ) and loose to make
the module go into “Smart Link “ config mode, waiting for APP to set password and
other information. (See Appendix to download SmartLink APP)
3.
After module is powered up, long press this button ( “Low” > 4s ) and loose to make
the module recover to factory setting.
High-Flying strongly suggest customer fan out this pin to connector or button for
“Manufacture” and “ Smart Link” application.
nReady Pin (LED) function(Low effective)
1.
OS initial finished indicator. Only after this pin output low, can the UART function be
used.
nLink Pin (LED) function(Low effective)
1.
At wireless firmware and config upgrade mode , this LED used to indicate configure
and upgrade status.
2.
At “Smart Link “ config mode, this LED used to indicate APP to finish setting.
3.
At normal mode, it’s Wi-Fi link status indicator
High-Flying strongly suggest customer fan out this pin to LED.
PWM function
PWM0~PWM3 support 1～100% duty, 5us～256speriod, PWM4 support 1～100% duty,
5us～4s period.
UART1 Debug
1.
Is used for debug log or firmware program.
2.
Can be used for communication in SDK.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 11 -
HF-LPB130 Low Power WiFi Module User Manual
1.2.2.
Electrical Characteristics
Table3.
Parameter
Absolute Maximum Ratings:
Condition
Storage temperature range
Min.
Typ.
-40
Maximum soldering temperature
IPC/JEDEC J-STD-020
Max.
Unit
125
°C
260
°C
Supply voltage
3.6
Voltage on any I/O pin
3.6
ESD (Human Body Model HBM)
TAMB=25°C
2.5
KV
ESD (MM)
TAMB=25°C
0.25
KV
Table4.
Power Supply & Power Consumption:
Parameter
Condition
Operating Supply voltage
Supply current, peak
Continuous Tx
Supply current,
Supply current,
Supply current,
1.2.3.
Min.
Typ.
Max.
Unit
2.9
3.3
3.6
260
mA
STA No data transfer
27
mA
STA Continuous data
transfer
AP
35
mA
80
mA
HF-LPB130 Mechanical Size
HF-LPB130 modules physical size
Figure 3.
Unit: mm
as follows:
HF-LPB130 Mechanical Dimension
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 12 -
HF-LPB130 Low Power WiFi Module User Manual
1.2.4.
HF-LPB130 On-board PCB Antenna
HF-LPB130 module support internal on-board PCB 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;

Antenna must away from metal or high components at least 10mm;

Antenna can’t be shielded by any metal enclosure;
Figure 4.
Suggested Module Placement Region
High-Flying suggest HF-LPB130 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.
1.2.5.
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-LPB130 series module with
the RS-232 UART, USB (Internal USB to UART convetor) or Wireless interface to configure the
parameters, manage the module or do the some functional tests.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 13 -
HF-LPB130 Low Power WiFi Module User Manual
Figure 5. HF-LPT130 EVK
Notes: User need download USB to 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:
Table6.
Function
External
Interface
LED
HF-LPB130 Evaluation Kit Interface Description
Name
Description
RS232
Main data/command RS-232 interface
USB
USB to UART interface
DC5V
DC jack for power in, 5V input.
Power
Power LED
Ready
nReady LED
Link
nLink LED
nReload
Restore factory default configuration after push this
pin more than 4s.
See 1.2.1
Button
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 14 -
HF-LPB130 Low Power WiFi Module User Manual
1.2.7.
Hardware Typical Application
User Device
Figure 8.
HF-LPB130 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.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 15 -
HF-LPB130 Low Power WiFi Module User Manual
nLink- Module WIFI connection status indication. Output.
(This pin is recommend to connect to LED, indicate status when the module in wireless
upgrade mode)
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 4s through button or MCU pin, then release, module
will restore to factory default configuration and re-start boot up process.. If nReload function not
required, can leave this pin open.
UART0_TXD/RXD- UART port data transmit and receive signal.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 16 -
HF-LPB130 Low Power WiFi Module User Manual
2. FUNCTIONAL DESCRIPTION
2.1. Wireless Networking
HF-LPB130 module can be configured as both wireless STA and AP base on network type. Logically
there are two interfaces in HF-LPB130. One is for STA, and another is for AP. When HF-LPB130
works as AP, other STA equipments are able to connect to HF-LPB130 module directly. Wireless
Networking with HF-LPB130 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.
2.1.1.
Basic Wireless Network Based On AP
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 9.
2.1.2.
HF-LPB130 Basic Wireless Network Structure
Wireless Network Based On STA
HF-LPB130 module support STA network mode.
Router
Serial service
server
Figure 10. HF-LPB130 STA Network Structure
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 17 -
HF-LPB130 Low Power WiFi Module User Manual
2.2. Work Mode : Transparent Transmission Mode
HF-LPB130 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

Security Mode

Encryption Key
SSID
TCP/UDP Linking Parameters

Protocol Type

Link Type

Target Port ID Number

Target Port IP Address
Server or Client
Serial Port Parameters

Baud Rate

Data Bit

Parity (Check) Bit

Stop Bit

Hardware Flow Control
2.3. 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-LPB130 module supports following:

WEP

WPA-PSK/TKIP

WPA-PSK/AES

WPA2-PSK/TKIP

WPA2-PSK/AES
2.4. Parameters Configuration
HF-LPB130 module supports two methods to configuration parameters: AT+instruction set.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 18 -
HF-LPB130 Low Power WiFi Module User Manual
AT+instruction set configuration means user configure parameters through serial interface command.
Refer to “AT+instruction set” chapter for more detail.
2.5. Firmware Update
HF-LPB130 module supports multiple upgrade methods:

UART upgrade

Local Network upgrade
2.6. SOCKET B Function
HF-LPB130 support double socket communication, the socket B function is disabled by default.
Figure 11. Socket B function demo
2.7. Multi-TCP Link Connection
When HF-LPB130 module SOCK A configured as TCP Server, it supports Multi-TCP link connection,
and maximum 5 TCP clients permitted to connect to HF-LPB130 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 replicate and broadcast to every TCP connection
or client.
Detailed multi-TCP link data transmission structure as following figure:
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 19 -
HF-LPB130 Low Power WiFi Module User Manual
Device 1#
Device 2#
User Device
Device 3#
Figure 12. Multi-TCP Link Data Transmition Structure
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 20 -
HF-LPB130 Low Power WiFi Module User Manual
3. OPERATION GUIDELINE
3.1. Configuration
When first use HF-LPB130 series modules, user may need some configuration. User can connect to
HF-LPB130 module’s wireless interface with following default setting information and configure the
module through laptop.
Table7.
HF-LPB130 Web Access Default Setting
Parameters
SSID
3.1.1.
IP Address
Default Setting
HF-LPB130
HF-LPT230
HF-LPT130A
10.10.100.254
Subnet Mask
255.255.255.0
Account
admin
Password
admin
Open Web Management Interface
There is internal webpage and external webpage in modules. The external webpage is for web
management. The internal webpage is only for upgrading. 1MB Flash external webpage is different
from 4MB Flash version, but the internal webpage is the same.
Step 1: Connect laptop to SSID “HF-LPT230” of HF-LPT230 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 13. Open Web Management page
The 1MB Flash version has the simple config page while the 4MB Flash version has the full config
page. 1MB Flash version webpage is as following(By default is Chinese language, upgrade via
internal webpage to upgrade English language).
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 21 -
HF-LPB130 Low Power WiFi Module User Manual
Figure 14. 1MB Flash Version webpage
The HF-LPB130 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”.
3.1.2.
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.
Figure 15. System Web Page
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 22 -
HF-LPB130 Low Power WiFi Module User Manual
3.1.3.
Work Mode Page
HF-LPB130 module can works at AP mode to simplify user’s configuration, can also works at STA to
connect remote server through AP router.
Figure 16. Work Mode Page
3.1.4.
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.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 23 -
HF-LPB130 Low Power WiFi Module User Manual
Figure 17. STA Setting Page
Figure 18. STA Scan Page
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 24 -
HF-LPB130 Low Power WiFi Module User Manual
3.1.5.
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 19. AP Setting Page
3.1.6.
Other Setting Page
HF-LPB130 usually works at data transparent transmission mode. At this mode, the user device which
connected with HF-LPB130 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 20. Other Setting Page
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 25 -
HF-LPB130 Low Power WiFi Module User Manual
3.1.7.
Account Management Page
This page set web server’s user name and password.
Figure 21. Account Page
3.1.8.
Upgrade Software Page
User can upgrade new software (firmware) version through Wi-Fi. After upgrade success, need reboot
it manually before new firmware valid.
Figure 22. Upgrade SW page
3.1.9.
Restart Page
Most of the settting and configuration can only effective after system restart. User shall restart after
finish all setting.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 26 -
HF-LPB130Low Power WiFi Module User Manual
Figure 23. Restart Page
3.1.10. Restore Page
After module restore factory default setting, all user configuration profile will lose.
User can access http://10.10.100.254 to set again, and user name and password is “admin”. HFLPB130 will restore to AP mode for factory default setting.
Figure 24. Restore Page
3.1.11. Internal Webpage
After wireless connection is OK. Open Wen browser and access “http://10.10.100.254/iweb.html”; It
is for upgrading application and external webpage..
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 27 -
HF-LPB130Low Power WiFi Module User Manual
Select file No files were selected
Figure 25. Internal Webpage
3.2. Usage Introduction
3.2.1.
Software Debug Tools
High-Flying use two common software tools debugging and applying HF-LPB130 module.
(User can also select other tools used to debug serial port).
3.2.2.

Serial Debugging Software: ComTools

Ethernet Debugging Software: TCPUDPDbg
Network Connection
User can select two methods to connect HF-LPB130 module base on dedicated application.

Use HF-LPB130 STA interface. HF-LPB130 and debug PC2 connect to a wireless AP,
another PC1 (or user device) connect to HF-LPB130 module with serial port:
Figure 26. STA Interface Debug Connection

Use HF-LPB130 AP interface. Debug PC2 connect to HF-LPB130 through wireless
connection, another PC1 (or user device) connect to HF-LPB130 module with serial port.
Figure 27. AP Interface Debug Connection
3.2.3.
Default Parameter Setting

Default SSID: HF-LPB130;
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 28 -
HF-LPB130 Low Power WiFi Module User Manual
3.2.4.

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;
Module Debug
PC1 open “CommTools” program, setting the same serial port parameters with HF-LPB130 module
and open serial port connection.
Figure 28. “CommTools” Serial Debug Tools
PC2 open “TCPUDPDbg” program, and create a new connection. If HF-LPB130 configured as Server
mode, “TCPUDPDbg” Tools shall create “Client “mode connection. Or otherwise, create a “Server”
mode connection.
Figure 29.
“TCPUDPDbg” Tools Create Connection
Then setting the TCP/UDP connection parameters. Default as following:
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 29 -
HF-LPB130 Low Power WiFi Module User Manual
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.
3.3. Typical Application Examples
3.3.1.
Wireless Control Application
Figure 32. Wireless Control Application
For this wireless control application, HF-LPB130 works as AP 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-LPB130 module.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 30 -
HF-LPB130 Low Power WiFi Module User Manual
3.3.2.
Remote Management Application
Figure 33. Remote Management Application
For this remote management application, HF-LPB130 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.
3.3.3.
Transparent Serial Port Application
For this transparent serial port application, two HF-LPB130 modules connect as below figures to build
up a transparent serial port connection. One HF-LPB130 works as AP mode, another HF-LPB130
works as STA mode. Make the STA device connects to AP.
Figure 34. Transparent Serial Port Application
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 31 -
HF-LPB130Low Power WiFi Module User Manual
FCC Statement
Any Changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
This device complies with part 15 of the FCC Rules. Operation is subject to the
following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that
may cause undesired operation.
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 20 cm between the radiator & your body.
FCC Label Instructions
The outside of final products that contains this module device must display a label
referring to the enclosed module. This exterior label can use wording such as: “Contains
Transmitter Module FCC ID: 2ACSV-HF-LPB130,or “Contains FCC ID: 2ACSV-HFLPB130, Any similar wording that expresses the same meaning may be used.
High-Flying Electronics Technology Co., Ltd(www.hi-flying.com)
- 32 -

---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.6
Linearized                      : Yes
Encryption                      : Standard V4.4 (128-bit)
User Access                     : Print, Extract, Print high-res
Author                          : Kevin Qiu
Create Date                     : 2018:03:16 09:28:55+08:00
Modify Date                     : 2018:03:21 14:18:14-07:00
Subject                         : SDC
Has XFA                         : No
Tagged PDF                      : No
XMP Toolkit                     : Adobe XMP Core 5.2-c001 63.139439, 2010/09/27-13:37:26
Metadata Date                   : 2018:03:21 14:18:14-07:00
Creator Tool                    : Adobe Acrobat Pro 9.0.0
Format                          : application/pdf
Title                           : GPON SFU System Design
Description                     : SDC
Creator                         : Kevin Qiu
Document ID                     : uuid:ee0b26d2-dc03-4482-951e-601483f4c19b
Instance ID                     : uuid:7854f153-33dd-49ef-ab16-7a58ffddf2ce
Producer                        : Adobe Acrobat Pro 9.0.0
Page Count                      : 32

EXIF Metadata provided by EXIF.tools