--- /dev/null
+-------------------------------------------------------------------------------
+FOR X SECS: OOK data
+-------------------------------------------------------------------------------
+
+for_x_secs contains longer captures which can contain multiple signals of
+interest.
+
+
+Notes for oregon_12s.sr
+-----------------------
+
+This is a 12 second capture of 433 MHz amplitude modulated data. It contains
+traces for an Oregon Scientific THGN800 temperature and humidity sensor, a
+PCR800 rain sensor, a WGR800 wind sensor and a virtual BTHR968 temperature
+humidity and pressure sensor. There may also be some other signals in there
+too.
+
+In order to decode the Oregon v2.1 BTHR968 you will need to change the
+preamble to '1010 ...' in the ook decoder. Currently you can ook decode either
+a preamble of '1111 ...' or '1010 ...' but not both at the same time, so you
+can see Oregon v2.1 or v1/3 sensors.
+
+The signal was received by an RF Solutions RX12 superhet decoder chip and then
+passed to the logic analyser.
+
+The individual traces are also in separate files under the oregon folder.
+
+Details:
+https://www.rfsolutions.co.uk/downloads/1481732062DS-AM-RX12.pdf
+
+
+Logic analyzer setup
+--------------------
+
+The logic analyzer used was a USBee AX Pro / Saleae Logic clone (at 25kHz):
+
+ Probe RX12
+ ----------------
+ 0 OUT
+ 1 Output from Arduino running virtual BTHR968
+
+
+Data
+----
+
+ * oregon_12s.sr:
+ Contains a set of pulses that include Oregon Scientific PCR800, THGN800,
+ WGR800 and BTHR968 sensors.
+
+ * one_transition_10s.sr:
+ Contains a single transition around 1 sec that is a useful template for
+ using the ook_gen decoder.
--- /dev/null
+-------------------------------------------------------------------------------
+BTHR968: OOK data
+-------------------------------------------------------------------------------
+
+This is an example capture of a virtual Oregon Scientific BTHR968 temperature,
+humidity and pressure sensor which transmits at 433.92 MHz using Manchester
+encoding and amplitude modulation.
+
+The signal was received by an RF Solutions RX12 superhet decoder chip and then
+passed to the logic analyser.
+
+In order to decode the Oregon v2.1 BTHR968 you will need to change the
+preamble to '1010 ...' in the ook decoder. Currently you can ook decode either
+a preamble of '1111 ...' or '1010 ...' but not both at the same time, so you
+can see Oregon v2.1 or v3 sensors.
+
+Details:
+https://gist.github.com/RouquinBlanc/5cb6ff88cd02e68d48ea BTHR918N_ArduinoSender.ino
+https://www.rfsolutions.co.uk/downloads/1481732062DS-AM-RX12.pdf
+
+
+Logic analyzer setup
+--------------------
+
+The logic analyzer used was a USBee AX Pro / Saleae Logic clone (at 25kHz):
+
+ Probe RX12
+ ----------------
+ 0 OUT
+ 1 Output from Arduino running virtual BTHR968
+
+
+Data
+----
+
+ * oregon_bthr968.sr:
+ Contains a single set of pulses that belong to a virtual Oregon Scientific
+ BTHR968 temperature, humidity and pressure sensor. These should decode as
+ channel 2, battery OK, rollingcode BC, temp 11.2 deg C, humidity 52%,
+ pressure 1013mb, checksum OK.
--- /dev/null
+-------------------------------------------------------------------------------
+PCR800: OOK data
+-------------------------------------------------------------------------------
+
+This is an example capture of an Oregon Scientific PCR800 rain sensor which
+transmits at 433.92 MHz using Manchester encoding and amplitude modulation.
+
+The signal was received by an RF Solutions RX12 superhet decoder chip and then
+passed to the logic analyser.
+
+In order to decode the Oregon v3 PCR800 you will need a preamble of '1111 ...'
+(default) in the ook decoder. Currently you can ook decode either a preamble
+of '1111 ...' or '1010 ...' but not both at the same time, so you can see
+Oregon v2.1 or v1/3 sensors.
+
+Details:
+http://www.oregonscientificstore.com/p-5-oregon-scientific-pcr800-wireless-rain-gauge-for-professional-weather-stations.aspx
+https://www.rfsolutions.co.uk/downloads/1481732062DS-AM-RX12.pdf
+
+
+Logic analyzer setup
+--------------------
+
+The logic analyzer used was a USBee AX Pro / Saleae Logic clone (at 25kHz):
+
+ Probe RX12
+ ----------------
+ 0 OUT
+ 1 Output from Arduino running virtual BTHR968
+
+
+Data
+----
+
+ * oregon_pcr800.sr:
+ Contains a single set of pulses that belong to an Oregon Scientific PCR800
+ rain sensor. These should decode as channel 0, battery OK, rainfall 0
+ in/hour, total 38.885 inches (since the battery was changed), checksum OK.
--- /dev/null
+-------------------------------------------------------------------------------
+THGN800: OOK data
+-------------------------------------------------------------------------------
+
+This is an example capture of an Oregon Scientific THGN800 temperature and
+humidity sensor which transmits at 433.92 MHz using Manchester encoding and
+amplitude modulation.
+
+The signal was received by an RF Solutions RX12 superhet decoder chip and then
+passed to the logic analyser.
+
+In order to decode the Oregon v3 THGN800 you will need a preamble of '1111 ...'
+(default) in the ook decoder. Currently you can ook decode either a preamble of
+'1111 ...' or '1010 ...' but not both at the same time, so you can see Oregon
+v2.1 or v1/3 sensors.
+
+Details:
+http://www.oregonscientificstore.com/p-381-oregon-scientific-thgn800-oem-wireless-temperature-humidity-sensor-for-professional-weather-stations-not-in-retail-packaging.aspx
+https://www.rfsolutions.co.uk/downloads/1481732062DS-AM-RX12.pdf
+
+
+Logic analyzer setup
+--------------------
+
+The logic analyzer used was a USBee AX Pro / Saleae Logic clone (at 25kHz):
+
+ Probe RX12
+ ----------------
+ 0 OUT
+ 1 Output from Arduino running virtual BTHR968
+
+
+Data
+----
+
+ * oregon_thgn800.sr:
+ Contains a single set of pulses that belong to an Oregon Scientific THGN800
+ temperature and humidity sensor. These should decode as channel 1,
+ battery OK, rollingcode F6, temp +17.3 deg C, humidity 52%, checksum OK.
--- /dev/null
+-------------------------------------------------------------------------------
+WGR800: OOK data
+-------------------------------------------------------------------------------
+
+This is an example capture of an Oregon Scientific WGR800 wind sensor which
+transmits at 433.92 MHz using Manchester encoding and amplitude modulation.
+
+The signal was received by an RF Solutions RX12 superhet decoder chip and then
+passed to the logic analyser.
+
+In order to decode the Oregon v3 WGR800 you will need a preamble of '1111 ...'
+(default) in the ook decoder. Currently you can ook decode either a preamble of
+'1111 ...' or '1010 ...' but not both at the same time, so you can see Oregon
+v2.1 or v1/3 sensors.
+
+Details:
+http://www.oregonscientificstore.com/p-378-oregon-scientific-wgr800-oem-professional-wind-sensor-not-in-retail-packaging.aspx
+https://www.rfsolutions.co.uk/downloads/1481732062DS-AM-RX12.pdf
+
+
+Logic analyzer setup
+--------------------
+
+The logic analyzer used was a USBee AX Pro / Saleae Logic clone (at 25kHz):
+
+ Probe RX12
+ ----------------
+ 0 OUT
+ 1 Output from Arduino running virtual BTHR968
+
+
+Data
+----
+
+ * oregon_wgr800.sr:
+ Contains a single set of pulses that belong to an Oregon Scientific WGR800
+ wind sensor. These should decode as channel 0, battery OK, rollingcode 5E,
+ direction NE(45deg), gust 3.3m/s, speed 2m/s, checksum OK.