Difference between revisions of "AVR controlled RF light switches"
From Just in Time
(Created page with "Although the Cheapest ever 433 Mhz transceiver for PCs still functions in all its ugliness, there are some things left to be desired in this solution. Particularly, the sy...") |
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[[Category:AVR]] | [[Category:AVR]] | ||
[[Category:433Mhz]] | [[Category:433Mhz]] | ||
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+ | ==Signals== | ||
+ | The image below shows an Audacity screenshot of an audio card capture of the signal of one RF remote. A few things stand out in this signal: | ||
+ | * It seems to consist of only two types of pulses: wide and narrow. All wide pulses have the same duration and the same is true for the narrow pulses. | ||
+ | * The rising edges of the pulses in this signal are evenly spaced in time (measured in Audacity to be approximately 33 samples or 750μs ) | ||
+ | * There are 25 pulses in this signal and (not visible in this image) the same train of pulses repeats after some 6ms. | ||
+ | [[File:onA signal in Audacity.png]] |
Revision as of 23:24, 21 July 2015
Although the Cheapest ever 433 Mhz transceiver for PCs still functions in all its ugliness, there are some things left to be desired in this solution. Particularly, the system needs a PC or Beaglebone/Raspi running for control of the light switches.
I'd like the simpler devices in my home to communicate with each other with only optionally a more initelligent controller in between. I'm working on a "multi-media" bus protocol for my devices (working title: ThingBus) that would work on TCP/IP, UDP, serial ports and through cheap NRF24L01+ transceivers. As a first use case I'm now trying to control the RF switches from an AVR that will listen to NRF24L01+ messages.
It would be silly to have the AVR store the audio samples that were created in the 433Mhz transceiver solution. We need to somehow describe the protocol in a more compact way. This page describes that way.
Signals
The image below shows an Audacity screenshot of an audio card capture of the signal of one RF remote. A few things stand out in this signal:
- It seems to consist of only two types of pulses: wide and narrow. All wide pulses have the same duration and the same is true for the narrow pulses.
- The rising edges of the pulses in this signal are evenly spaced in time (measured in Audacity to be approximately 33 samples or 750μs )
- There are 25 pulses in this signal and (not visible in this image) the same train of pulses repeats after some 6ms.