1## 2## This file is part of the libsigrokdecode project. 3## 4## Copyright (C) 2018 Steve R <steversig@virginmedia.com> 5## 6## This program is free software; you can redistribute it and/or modify 7## it under the terms of the GNU General Public License as published by 8## the Free Software Foundation; either version 2 of the License, or 9## (at your option) any later version. 10## 11## This program is distributed in the hope that it will be useful, 12## but WITHOUT ANY WARRANTY; without even the implied warranty of 13## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14## GNU General Public License for more details. 15## 16## You should have received a copy of the GNU General Public License 17## along with this program; if not, see <http://www.gnu.org/licenses/>. 18## 19 20# Most of the info here comes from "434MHz RF Protocol Descriptions for 21# Wireless Weather Sensors - October 2015" Known Sensor ID Codes - p25. 22 23# Format is 4 hex digit ID code followed by a LIST of models that use that 24# ID and the type of sensor. 25# SensorID is used as the hash in a Python hash table, so it must be upper case. 26# The type of sensor is used to decode and display readings in the L2 decode, 27# it's case-sensitive. 28# Be very careful with the formatting ' [] and commas. 29 30sensor = { 31# 'SensorID': [['model1', 'model2'], 'type'], 32 '1984': [['WGR800'], 'Wind'], # The newer anemometer with no temperature/RH sensor. 33 '1994': [['WGR800'], 'Wind'], # The original anemometer which included a temperature/RH sensor. 34 '1A2D': [['THGR228N'], 'Temp_Hum1'], 35 '1A3D': [['THGR918'], ''], 36 '1D20': [['THGN123N', 'THGR122NX', 'THGN123N', 'THGR228N'], 'Temp_Hum'], 37 '1D30': [['THGN500', 'THGN132N'], ''], 38 '2914': [['PCR800'], 'Rain'], 39 '2A19': [['PCR800'], 'Rain1'], 40 '2A1D': [['RGR918'], 'Rain'], 41 '2D10': [['RGR968', 'PGR968 '], 'Rain1'], 42 '3A0D': [['STR918', 'WGR918'], 'Wind'], 43 '5A5D': [['BTHR918'], ''], 44 '5A6D': [['BTHR918N'], 'Temp_Hum_Baro'], 45 '5D53': [['BTHGN129'], 'Baro'], 46 '5D60': [['BTHR968'], 'Temp_Hum_Baro'], 47 'C844': [['THWR800'], 'Temp'], 48 'CC13': [['RTGR328N'], 'Temp_Hum'], 49 'CC23': [['THGR328N'], 'Temp_Hum'], 50 'CD39': [['RTHR328N'], 'Temp'], 51 'D874': [['UVN800'], 'UV1'], 52 'EA4C': [['THWR288A'], 'Temp'], 53 'EC40': [['THN132N', 'THR238NF'], 'Temp'], 54 'EC70': [['UVR128'], 'UV'], 55 'F824': [['THGN800', 'THGN801', 'THGR810'], 'Temp_Hum'], 56 'F8B4': [['THGR810'], 'Temp_Hum'], 57# '': ['PSR01'], '', ''], 58# '': ['RTGR328NA'], '', ''], 59# '': ['THC268'], '', ''], 60# '': ['THWR288A-JD'], '', ''], 61# '': ['THGR268'], '', ''], 62# '': ['THR268'], '', ''], 63} 64 65# The sensor checksum exceptions are used to calculate the right checksum for 66# sensors that don't follow the v1, v2.1 and v3 methods. For instance a v2.1 67# sensor that has a v3 checksum. 68sensor_checksum = { 69# 'SensorID': ['checksum_method', 'comment'], 70 '1D20': ['v3', 'THGR228N'], 71 '5D60': ['v3', 'BTHR918N'], 72 'EC40': ['v3', 'THN132N'], 73} 74 75dir_table = ['N', 'NNE', 'NE', 'ENE', 'E', 'ESE', 'SE', 'SSE', 'S', 'SSW', 'SW', 'WSW', 'W', 'WNW', 'NW', 'NNW', 'N'] 76