Changes

Used in [[Roti_making_robot_rotimatic|Rotimatic]] as implemented with [[Roti_making_robot_rotimatic/BlueGiga_WF121_PCB_ZEM0040-1|WF121-A Module & PCB]]

Main Project Page: [https://www.mouser.com/datasheet/2/52/Leaflet_WF121_lowres-4334.pdf Brochure[Roti_making_robot_rotimatic|Rotimatic]]

= WF121-A =*[https://www.mouser.com/datasheet/2/52/Leaflet_WF121_lowres-4334.pdf Brochure]*[https://www.mouser.com/datasheet/2/368/Bluegiga_WF121_Datasheet-1203323.pdf Data Sheet v1.4.9 2013]*[https://www.silabs.com/documents/public/user-guides/UG221.pdf Developer Guide v3.0 2016]*[https://www.silabs.com/documents/public/application-notes/AN998.pdf Application Notes v1.1 2014]*[https://www.silabs.com/documents/public/data-sheets/WF121-DataSheet.pdf Data Sheet v2.0.1 2024]

== Images == [https[File:WF121-A top.png|800px]] [[File:WF121-A internal.png|800px]]  == UART == === Developer Guide Notes/Examples === ==== WF121 Factory Configuration ====WF121 Modules are factory shipped with settings listed below. UART2 This UART gives access to BGAPI protocol, which can be used to control the WF121 Module from a separate host.*Pin 17: CTS*Pin 19: RTS*Pin 35: RX*Pin 36: TX*Baud rate 115200bps*Data bits 8*Parity bit none*Stop bit(s) 1*RTS/wwwCTS enabled*RTS and CTS must be connected for the BGAPI communication to work properly.silabs*UART1 is activated, but not accessed in the factory configuration.com The corresponding hardware configuration is shown below:<pre><?xml version="1.0" encoding="UTF-8" ?><hardware> <uart channel="0" baud="115200" api="false" /documents> <uart channel="1" baud="115200" api="true" handshake="True" /public></hardware></pre> ==== channel ====*0: UART channel 1*1: UART channel 2*Example:**channel="0" ==== baud ====*Default: 57600*Range: 0-10000000*Some supported baud rates: 10000000, 5000000, 2500000, 2000000, 1000000, 115200, 57600*Example:**baud="115200" Notice that not all baud rates are possible. BGBuild compiler tries to find best match with least amount of error and outputs the result. ==== stopbits ====*Range: 1-2*Default: 1*Example:**stopbits="2" ==== parity ====*Values:**odd: use odd parity bit**even: use even parity bit**none: no parity bit*Default: none*Example:**parity:"odd" ==== handshake ====handshake RTS/CTS for data flow control*Values:**true: RTS/CTS flow control is used**false: RTS/CTS flow control is not used**Default: false*Example:**handshake="true" ==== api ====*Values:**true: UART is used for BGAPI protocol**false: UART is used for application data*Default: false*Example:**api="true" When using UART in streaming mode, it is highly recommend to use RTS api="false" /CTS data flow control (handshake="true") to ensure reliable datatransfer. api UART is used for BGAPI protocol When there should be an application receiving the BGAPI responses and events trueat the host, otherwise the module might get stuck. ==== BGAPI / config ====Using BGAPI over UART interface The example below shows how to configure BGAPI to be used over UART2 interface with 115200 bps baud rate and hardware flow control. <pre><?xml version="1.0" encoding="UTF-sheets8" ?><hardware> <uart channel="1" baud="115200" api="true" handshake="True" /></WF121hardware></pre> Using BGAPI over UART2 and enabling UART1 to BGScript application The example below shows how to configure BGAPI to be used over UART2 interface and UART1 interface access is given to a BGScript application. This is used in multiple example applications delivered with the Bluegiga Wi-DataSheetFi Software.pdf Data Sheet v2The purpose is for example to use UART1 for BGScript debugging and UART2 for DFU firmware updates. <pre><?xml version="1.0." encoding="UTF-8" ?><hardware> <uart channel="0" baud="115200" api="false" handshake="false" /> <uart channel="1 2024]" baud="115200" api="True" handshake="True" /></hardware></pre>