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Revision as of 14:36, 13 July 2026

Author Matrix Ltd.
Version 2.1
Category E-blocks 2


WIFI component

Wireless LAN component designed to work with the ESP-12S module. Provides a very simple interface to allow webpages to be hosted from hardware or simulation. Also available in the form of the BL0136 WIFI E-block.

Component Source Code

Please click here to download the component source project: FC_Comp_Source_EBlocks2_WLAN_ESP12S_BL0136.fcfx

Please click here to view the component source code (Beta): FC_Comp_Source_EBlocks2_WLAN_ESP12S_BL0136.fcfx

Detailed description

No detailed description exists yet for this component

Examples

The examples below are all done using a EB091 board as the host

The EB069 ESP8266 Wifi E-block is connected to PORTD 0-7 with the patch setting set to B.

The EB005 LCD E-block is connected to PORTB 0-7 with the patch setting set to Default.

Other host boards are compatible with the examples, simply change the target chip and component connection properties.


Firmware Test

This example collects the firmware version from the ESP8266 module and displays it on an LCD. Tested working with firmware version 00150900.

FirmwareTest


Wireless Scanner

This example scans for wireless networks in range and prints the network IDs to the LCD along with the signal strength and security type.

WifiScan


Creating An Access Point

This example creates an access point you can connect your phone or laptop to named Flowcode_ESP8266. The password to connect to the access point is flowcode6.

Note this example simply creates an access point, no data is transferred.

CreateAP


Joining An Access Point

This example joins an existing access point. The network ID and Password must be altered to match your local WIFI network settings.

Note this example simply joins an access point, no data is transferred.

JoinAP


TCP Client

This example joins an existing access point. The network ID and Password must be altered to match your local WIFI network settings.

Once joined to the network the example connects to the MatrixTSL website and requests a file which is printed out on the LCD.

TCPClient


TCP Server

This example creates an access point you can connect your phone or laptop to named Flowcode_ESP8266. The password to connect to the access point is flowcode6.

Once the access point is created the example shows the server IP address on the LCD. Connecting to the wireless network on your phone or laptop and visiting the IP address shown on the LCD using a web browser allows you to switch LED outputs on and off.

TCPServer


Network Comms

Here are some examples using the Network Communication component linked to the ESP8266 component.

NetworkComms ESP8266 Client

NetworkComms ESP8266 Webserver







Macro reference

CheckForPageRequests

CheckForPageRequests
To be called periodically. Returns non-zero if a request has been processed 
- BYTE Return


CheckTCPServerIP

CheckTCPServerIP
Collects the local IP address of the active TCP server. 
- STRING Return


ClientConnect

ClientConnect
Creates a TCP or UDP connection to a remote server. Returns the state of the connection. 0=Connection failed 1=Connection active 
- BYTE Type
0 = TCP, 1 = UDP 
- STRING IPAddress
e.g. "192.168.1.20" 
- UINT Port
Remote port number to connect to, HTTP comms = Port 80 
- BYTE Return


ClientSendArray

ClientSendArray
Sends out an array of data bytes with the required AT+CIPSEND=Length$(Request) initialiser. 
- BYTE Data
 
- UINT NumBytes
 
- VOID Return


ClientSendRequest

ClientSendRequest
Sends out a string with the required AT+CIPSEND=Length$(Request) initialiser. 
- STRING Request
e.g. "GET / HTTP/1.0\r\n\r\n" 
- VOID Return


ConnectToSSID

ConnectToSSID
Attempts to connect to the given SSID and Key values. Returns 1 if the SSID has been connected.  
- STRING SSID
 
- STRING Key
 
- BYTE Timeout
Number of seconds to wait for the connection, default 20 
- BYTE Return


ControlTCPServer

ControlTCPServer
Allows a TCP web page server to be switched on and off on the selected port. Returns 1 if the command was completed correctly. 
- BYTE Enable
0 = Stop Server, 1 = Start Server 
- UINT Port
Server port to listen for incoming TCP/IP data requests 
- BYTE Return


CreateAccessPoint

CreateAccessPoint
Sets up the wireless LAN module into AP mode to host a wireless network. Other WIFI enabled devices can then connect to the module. Returns 1 for success. 
- STRING SSID
Name of the wireless network to create 
- STRING Password
Password used to gain access to the network 
- BYTE Channel
802.11 Channel Range 1-14 
- BYTE Encryption
0=Open, 1=WEP, 2=WPA_PSK, 3=WPA2_PSK, 4=WPA_WPA2_PSK 
- BYTE Return


DisconnectFromSSID

DisconnectFromSSID
Disconnects from the current SSID. Returns 1 if the command was accepted and returned an "OK" 
- BYTE Return


EndServerConnection

EndServerConnection
Disconnects from the current active TCP/IP pipe. 
- BYTE Return


GetByteWithTimeout

GetByteWithTimeout
Attempts to receive a byte from the circular buffer. If nothing is available then waits up to 200 ms for data to become available. 
- BYTE Return


GetFirmwareVersion

GetFirmwareVersion
Collects the firmware version from the ESP8266 module and returns it as a string. 
- STRING Return


GetInValue

GetInValue
Returns the string value of a Request parameter 
- BYTE index
Index of the request paramter, starting at zero Range 0-2 
- STRING Return


GetRxArray

GetRxArray
Attempts to receive a number of bytes from the remote connection If nothing is available then waits up to 200 ms for data to become available. Returns the number of bytes received,. 
- BYTE Data
Byte array to store the incoming data 
- UINT MaxBytes
Maximum number of bytes to try and receive 
- UINT Return


Initialise

Initialise
Initialise the device with the property data. Returns 1 if "ready" message successfully received Returns 0 if no reply from module 
- BYTE Return


ReadEncryptionModeFromScan

ReadEncryptionModeFromScan
Collects one of the encryption modes from the last SSID Scan. The ScanForSSID macro must be called first. 0=Open, 1=WEP, 2=WPA_PSK, 3=WPA2_PSK, 4=WPA_WPA2_PSK 
- BYTE Index
SSID Index 
- BYTE Return


ReadSSIDFromScan

ReadSSIDFromScan
Collects one of the SSID name strings from the last SSID Scan. The ScanForSSID macro must be called first. 
- BYTE Index
SSID Index 
- STRING Return


ReadSignalStrengthFromScan

ReadSignalStrengthFromScan
Collects the signal strength from the last SSID Scan. The ScanForSSID macro must be called first. Value returned is in negative dB, smaller value = better signal 
- BYTE Index
SSID Index 
- BYTE Return


ScanForSSID

ScanForSSID
Checks for wireless networks in the local area which are broadcasting their SSID. Must not be connected to a network to allow this to function. Returns the number of wireless networks found, max 8. 
- BYTE Return


SendString

SendString
Sends the given Text with no preappendment. Useful for sending preformatted command strings. Appends a CR to the end of the string if SendCR is greater than 0. 
- STRING Text
 
- BYTE SendCR
 
- VOID Return


Send_Embedded_HTML_Page1

Send_Embedded_HTML_Page1
 
- VOID Return


Send_Embedded_HTML_Page2

Send_Embedded_HTML_Page2
 
- VOID Return


Send_Embedded_HTML_Page3

Send_Embedded_HTML_Page3
 
- VOID Return


Send_Embedded_HTML_Page4

Send_Embedded_HTML_Page4
 
- VOID Return


SetOutValue

SetOutValue
Set the value of an outbound substitution string 
- BYTE index
Range 0-4 
- STRING value
 
- VOID Return


Property reference

Properties
WIFI Properties
Receive Buffer Size
Buffer used to store incoming data ready for processing. Default 128 Bytes. 
Scan Buffer Size
Buffer used to hold SSID names when performing a SSID network scan. Default 100 Bytes. 
Reset Mode
The initialise automatically resets the WIFI module before establishing communications. Software reset uses an AT command to preform the reset Hardware reset uses an extra I/O pin to toggle the signal to the reset pin on the module. 
Command Termination
Older versions of the firmware require \r to terminate a AT command string. Newer versions of the firmware have changed to use \r\n termination. 
Connections
Channel
UART Channel selector Software channels are bit banged using generic I/O pins but are not as reliable as hardware channels. Hardware channels use the selected peripheral on-board the target microcontroller. 
Baud Options
Baud rate option selector 
Baud Rate
 
TX
Pin to be used for Transmit data 
TX Remap Pin
Allows the hardware transmit pin to be configured from a list of available pins based on your target device, 
RX
Pin to be used for Receive data 
RX Remap Pin
Allows the hardware receive pin to be configured from a list of available pins based on your target device, 
Reset
WLAN module reset pin connection 
Use Flow Control
Flow Control (Handshake) enable or disable. On: Two I/O pins are used to control the flow of data in and out of the device. Off: Flow control is disabled. 
HTML Source
Max Web Pages
Maximum number of individual webpages we can serve up with the component. 
Web Page Timeout
Number of cycles to try and send / receive a webpage before timing out. 
Line Delay
Fixed delay in microseconds sent in between sending a HTML line when running as a web page server. 
Name Page 1
HTML name of webpage 1 
HTML Page 1
HTML content for webpage 1 
Name Page 2
HTML name of webpage 2 
HTML Page 2
HTML content for webpage 2 
Name Page 3
HTML name of webpage 3 
HTML Page 3
HTML content for webpage 3  
Name Page 4
HTML name of webpage 4 
HTML Page 4
HTML content for webpage 4 
Substitutions
Outgoing
Count
Maximum number of outbound string substitutions 
Length 0
Number of bytes to reserve for data string. 
Incoming
Count
Maximum number of inbound string substitutions 
Length 0
Number of bytes to reserve for data string. 
Simulation
Label
Text label used to help identify the component on the panel. 
Show Comms Flasher
 
Simulation Method
Decides how to handle the simulation of the component. TCP Base - Allows simulation of the network communications using the TCP Base component and DLL. COM/Injector - Allows the simulation to connect to real hardware or injectors. 
Scope Traces
Selects if the scope traces are automatically added to the data recorder window or not. Simulation - draws an approximation of the UART data onto the scope trace. ICT - sets up the scope trace for incoming data and adds UART packet decoding at the correct BAUD. 
Console Data
Selects if the console data is automatically generated or not 
Console Columns
Number of characters that can be displayed on a single line of the console. 
Data Source
Simulation data source used to allow the component to connect to various remote devices Nothing - Simulation data is ignored COM port - Routes the communication data to and from a physical or virtual COM port Injector - Routes the communication data via a data injector component on the Panel.