1 -------------------------------------------------------------------------------
3 -------------------------------------------------------------------------------
5 This is an example capture of an Oregon Scientific WGR800 wind sensor which
6 transmits at 433.92 MHz using Manchester encoding and amplitude modulation.
8 The signal was received by an RF Solutions RX12 superhet decoder chip and then
9 passed to the logic analyser.
11 In order to decode the Oregon v3 WGR800 you will need a preamble of '1111 ...'
12 (default) in the ook decoder. Currently you can ook decode either a preamble of
13 '1111 ...' or '1010 ...' but not both at the same time, so you can see Oregon
17 http://www.oregonscientificstore.com/p-378-oregon-scientific-wgr800-oem-professional-wind-sensor-not-in-retail-packaging.aspx
18 https://www.rfsolutions.co.uk/downloads/1481732062DS-AM-RX12.pdf
24 The logic analyzer used was a USBee AX Pro / Saleae Logic clone (at 25kHz):
29 1 Output from Arduino running virtual BTHR968
36 Contains a single set of pulses that belong to an Oregon Scientific WGR800
37 wind sensor. These should decode as channel 0, battery OK, rollingcode 5E,
38 direction NE(45deg), gust 3.3m/s, speed 2m/s, checksum OK.