Tasmota/lib/rc-switch-2.6.2.13
to-scho f2b91117cd rc-switch fix and support for Conrad_RS-200 protocol
There is a tiny bug hat prevents the usage for "Conrad RS-200" based devices. The RS-200 protocol does not repeat packets that often. One need already to detect the end of the first packet. The gap between two transmission are not handled right when RF packet is received first time.

a) 1st gap detection fixed
b) Furthermore the "Conrad RS-200" protocol is added.
2020-01-02 14:46:31 +01:00
..
examples Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
.gitignore Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
.travis.yml Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
RCSwitch.cpp rc-switch fix and support for Conrad_RS-200 protocol 2020-01-02 14:46:31 +01:00
RCSwitch.h Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
README.md Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
keywords.txt Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
library.json Initial release of RF transceiving 2018-10-25 18:17:58 +02:00
library.properties Initial release of RF transceiving 2018-10-25 18:17:58 +02:00

README.md

rc-switch

Build Status

Use your Arduino or Raspberry Pi to operate remote radio controlled devices

Download

https://github.com/sui77/rc-switch/releases/latest

rc-switch is also listed in the arduino library manager.

Wiki

https://github.com/sui77/rc-switch/wiki

Info

Send RC codes

Use your Arduino or Raspberry Pi to operate remote radio controlled devices. This will most likely work with all popular low cost power outlet sockets. If yours doesn't work, you might need to adjust the pulse length.

All you need is a Arduino or Raspberry Pi, a 315/433MHz AM transmitter and one or more devices with one of the supported chipsets:

  • SC5262 / SC5272
  • HX2262 / HX2272
  • PT2262 / PT2272
  • EV1527 / RT1527 / FP1527 / HS1527
  • Intertechno outlets
  • HT6P20X

Receive and decode RC codes

Find out what codes your remote is sending. Use your remote to control your Arduino.

All you need is an Arduino, a 315/433MHz AM receiver (altough there is no instruction yet, yes it is possible to hack an existing device) and a remote hand set.

For the Raspberry Pi, clone the https://github.com/ninjablocks/433Utils project to compile a sniffer tool and transmission commands.