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fhem-mirror/FHEM/14_CUL_TCM97001.pm
dancer0705 7174ce657c 14_CUL_TCM97001: Fix wrong logging 
git-svn-id: https://svn.fhem.de/fhem/trunk/fhem@8619 2b470e98-0d58-463d-a4d8-8e2adae1ed80
2015-05-21 18:16:59 +00:00

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##############################################
# From dancer0705
#
# Receive temperature sensor
# Supported models:
# - "TCM97..."
# - "ABS700"
# - "TCM21...."
# - "Prologue"
# - "Rubicson"
# - "NC_WS"
# - "GT-WT-02"
# - "AURIOL"
#
# Unsupported models are saved in a device named CUL_TCM97001_Unknown
#
# Copyright (C) 2015 Bjoern Hempel
#
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
# or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
# more details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the
# Free Software Foundation, Inc.,
# 51 Franklin St, Fifth Floor, Boston, MA 02110, USA
#
##############################################
package main;
use strict;
use warnings;
use SetExtensions;
use constant { TRUE => 1, FALSE => 0 };
#
# All suported models
#
my %models = (
"TCM97..." => 'TCM97...',
"ABS700" => 'ABS700',
"TCM21...." => 'TCM21....',
"Prologue" => 'Prologue',
"Rubicson" => 'Rubicson',
"NC_WS" => 'NC_WS',
"GT-WT-02" => 'GT-WT-02',
"AURIOL" => 'AURIOL',
"Unknown" => 'Unknown',
);
sub
CUL_TCM97001_Initialize($)
{
my ($hash) = @_;
$hash->{Match} = "^s.....";
$hash->{DefFn} = "CUL_TCM97001_Define";
$hash->{UndefFn} = "CUL_TCM97001_Undef";
$hash->{ParseFn} = "CUL_TCM97001_Parse";
$hash->{AttrList} = "IODev do_not_notify:1,0 ignore:0,1 showtime:1,0 " .
"$readingFnAttributes " .
"model:".join(",", sort keys %models);
$hash->{AutoCreate}=
{ "CUL_TCM97001.*" => { GPLOT => "temp4hum4:Temp/Hum,", FILTER => "%NAME" } };
}
#############################
sub
CUL_TCM97001_Define($$)
{
my ($hash, $def) = @_;
my @a = split("[ \t][ \t]*", $def);
return "wrong syntax: define <name> CUL_TCM97001 <code>"
if(int(@a) < 3 || int(@a) > 5);
$hash->{CODE} = $a[2];
$hash->{lastT} = 0;
$hash->{lastH} = 0;
$modules{CUL_TCM97001}{defptr}{$a[2]} = $hash;
$hash->{STATE} = "Defined";
return undef;
}
#####################################
sub
CUL_TCM97001_Undef($$)
{
my ($hash, $name) = @_;
delete($modules{CUL_TCM97001}{defptr}{$hash->{CODE}})
if(defined($hash->{CODE}) &&
defined($modules{CUL_TCM97001}{defptr}{$hash->{CODE}}));
return undef;
}
#
# CRC Check for TCM 21....
#
sub checkCRC {
my $msg = shift;
my @a = split("", $msg);
my $bitReverse = undef;
my $x = undef;
foreach $x (@a) {
my $bin3=sprintf("%04b",hex($x));
$bitReverse = $bitReverse . reverse($bin3);
}
my $hexReverse = unpack("H*", pack ("B*", $bitReverse));
#Split reversed a again
my @aReverse = split("", $hexReverse);
my $CRC = (hex($aReverse[0])+hex($aReverse[1])+hex($aReverse[2])+hex($aReverse[3])
+hex($aReverse[4])+hex($aReverse[5])+hex($aReverse[6])+hex($aReverse[7])) & 15;
if ($CRC + hex($aReverse[8]) == 15) {
return TRUE;
}
return FALSE;
}
#
# CRC Check for GT-WT-02
#
sub checkCRC_GTWT02 {
my $msg = shift;
my @a = split("", $msg);
my $CRC = (hex($a[0])+hex($a[1])+hex($a[2])+hex($a[3])
+hex($a[4])+hex($a[5])+hex($a[6])+hex($a[7])) -1;
my $CRCCHECKVAL= (hex($a[7].$a[8].$a[9]) & 0x1F8) >> 3;
if ($CRC == $CRCCHECKVAL) {
return TRUE;
}
return FALSE;
}
sub checkValues {
my $temp = shift;
my $humidy = shift;
if (!defined($humidy)) {
$humidy = 50;
}
if ($temp < 60 && $temp > -30
&& $humidy > 0 && $humidy < 100) {
return TRUE;
}
return FALSE;
}
###################################
sub
CUL_TCM97001_Parse($$)
{
my ($hash, $msg) = @_;
$msg = substr($msg, 1);
my @a = split("", $msg);
my $id3 = hex($a[0] . $a[1]);
#my $id4 = hex($a[0] . $a[1] . $a[2] . (hex($a[3]) & 0x3));
my $def = $modules{CUL_TCM97001}{defptr}{$id3};
#my $def2 = $modules{CUL_TCM97001}{defptr}{$id4};
my $now = time();
my $name = "Unknown";
if($def) {
$name = $def->{NAME};
#} elsif($def2) {
# $name = $def2->{NAME};
}
my $readedModel = AttrVal($name, "model", "Unknown");
my $rssi;
my $l = length($msg);
$rssi = substr($msg, $l-2, 2);
undef($rssi) if ($rssi eq "00");
if (defined($rssi))
{
$rssi = hex($rssi);
$rssi = ($rssi>=128 ? (($rssi-256)/2-74) : ($rssi/2-74)) if defined($rssi);
Log3 $name, 4, "CUL_TCM97001 $name $id3 ($msg) length: $l RSSI: $rssi";
} else {
Log3 $name, 4, "CUL_TCM97001 $name $id3 ($msg) length: $l";
}
my ($msgtype, $msgtypeH);
my $packageOK = FALSE;
my $batbit=undef;
my $mode=undef;
my $trend=undef;
my $hashumidity = FALSE;
my $hasbatcheck = FALSE;
my $hastrend = FALSE;
my $haschannel = FALSE;
my $model="Unknown";
my $temp = undef;
my $humidity=undef;
my $channel = undef;
if (length($msg) == 8) {
# Only tmp TCM device
#eg. 1000 1111 0100 0011 0110 1000 = 21.8C
#eg. --> shift2 0100 0011 0110 10
my $tcm97id = hex($a[0] . $a[1]);
$def = $modules{CUL_TCM97001}{defptr}{$tcm97id};
if($def) {
$name = $def->{NAME};
}
$readedModel = AttrVal($name, "model", "Unknown");
if ($readedModel eq "Unknown" || $readedModel eq "TCM97...") {
$def = $modules{CUL_TCM97001}{defptr}{$tcm97id};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[3].$a[4].$a[5]) >> 2) & 0xFFFF;
my $negative = (hex($a[2]) >> 0) & 0x3;
if ($negative == 0x3) {
$temp = (~$temp & 0x03FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
# I think bit 3 on byte 3 is battery warning
$batbit = (hex($a[2]) >> 0) & 0x4;
$mode = (hex($a[5]) >> 0) & 0x1;
my $unknown = (hex($a[4]) >> 0) & 0x2;
if ($mode) {
Log3 $name, 5, "CUL_TCM97001 Mode: manual triggert";
} else {
Log3 $name, 5, "CUL_TCM97001 Mode: auto triggert";
}
if ($unknown) {
Log3 $name, 5, "CUL_TCM97001 Unknown Bit: $unknown";
}
if (checkValues($temp, 50)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $tcm97id, please define it";
return "UNDEFINED CUL_TCM97001_$tcm97id CUL_TCM97001 $tcm97id";
}
$packageOK = TRUE;
$hasbatcheck = TRUE;
$model="TCM97...";
$readedModel=$model;
}
}
if ($readedModel eq "Unknown" || $readedModel eq "ABS700") {
$def = $modules{CUL_TCM97001}{defptr}{$tcm97id};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[2].$a[3]) & 0x7F)+(hex($a[5])/10);
if ((hex($a[2]) & 0x8) == 0x8) {
$temp = -$temp;
}
$batbit = ((hex($a[4]) & 0x8) != 0x8);
$mode = (hex($a[4]) & 0x4) >> 2;
if (checkValues($temp, 50)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $tcm97id, please define it";
return "UNDEFINED CUL_TCM97001_$tcm97id CUL_TCM97001 $tcm97id";
}
$hasbatcheck = TRUE;
$packageOK = TRUE;
$model="ABS700";
$readedModel=$model;
}
}
} elsif (length($msg) == 12) {
my $bin = undef;
my $idType1 = hex($a[0] . $a[1]);
#my $idType2 = hex($a[0] . $a[1] . $a[2]);
#my $idType3 = hex($a[0] . $a[1] . $a[2] . (hex($a[3]) & 0x3));
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
#my $def2 = $modules{CUL_TCM97001}{defptr}{$idType2};
#my $def3 = $modules{CUL_TCM97001}{defptr}{$idType3};
if($def) {
$name = $def->{NAME};
#} elsif($def2) {
# $def = $def2;
# $name = $def->{NAME};
#} elsif($def3) {
# $def = $def3;
# $name = $def->{NAME};
}
$readedModel = AttrVal($name, "model", "Unknown");
Log3 $name, 4, "CUL_TCM97001 Define Name: $name Model defined: $readedModel";
if (checkCRC($msg) == TRUE && ($readedModel eq "Unknown" || $readedModel eq "TCM21....")) {
# Long with tmp
# All nibbles must be reversed
# e.g. 154E800480 0001 0101 0100 1110 1000 0000 0000 0100 1000 0000
# A B C D E F G H I
# A+B = Addess
# C Bit 1 Battery
# D+E+F Temp
# G+H Hum
# I CRC
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
my @a = split("", $msg);
my $bitReverse = undef;
my $x = undef;
foreach $x (@a) {
my $bin3=sprintf("%024b",hex($x));
$bitReverse = $bitReverse . substr(reverse($bin3),0,4);
}
my $hexReverse = unpack("H*", pack ("B*", $bitReverse));
#Split reversed a again
my @aReverse = split("", $hexReverse);
if (hex($aReverse[5]) > 3) {
# negative temp
$temp = ((hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256));
$temp = (~$temp & 0x03FF) + 1;
$temp = -$temp/10;
} else {
# positive temp
$temp = (hex($aReverse[3]) + hex($aReverse[4]) * 16 + hex($aReverse[5]) * 256)/10;
}
$humidity = hex($aReverse[7]).hex($aReverse[6]);
$batbit = (hex($a[2]) & 0x8) >> 3;
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1";
}
$hashumidity = TRUE;
$packageOK = TRUE;
$hasbatcheck = TRUE;
$model="TCM21....";
$readedModel=$model;
} else {
$name = "Unknown";
}
}
if (checkCRC_GTWT02($msg) == TRUE && ($readedModel eq "GT-WT-02" || $readedModel eq "Unknown")) {
# F F 0 0 F 9 5 5 F
# 1111 1111 0000 0000 1111 1001 0101 0101 1111
# A B C D E F G H I
# A+B = Zufällige Code wechelt beim Batteriewechsel
# C Bit 4 Battery, 3 Manual, 2+1 Channel
# D+E+F Temperatur, wenn es negativ wird muss man negieren und dann 1 addieren, wie im ersten Post beschrieben.
# G+H Hum - bit 0-7
# I CRC?
#$def = $modules{CUL_TCM97001}{defptr}{$idType3};
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
$channel = (hex($a[2])) & 0x3;
$temp = (hex($a[3].$a[4].$a[5])) & 0x3FF;
my $negative = (hex($a[3])) & 0xC;
if ($negative == 0xC) {
$temp = (~$temp & 0x03FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
$humidity = (hex($a[6].$a[7]) & 0x0FE) >> 1; # only the first 7 bits are the humidity
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1";
}
if ($humidity >= 20) {
$hashumidity = TRUE;
}
$hasbatcheck = TRUE;
$haschannel = TRUE;
$packageOK = TRUE;
$model="GT-WT-02";
$readedModel=$model;
} else {
$name = "Unknown";
}
}
#Log3 $name, 4, "CUL_TCM97001: CRC for TCM21.... Failed, checking other protocolls";
# Check for Prologue
if ($readedModel eq "Prologue" || (hex($a[0]) == 0x9 && $readedModel eq "Unknown")) {
# Protocol prologue start everytime with 1001
# e.g. 91080F614C 1001 0001 0000 1000 0000 1111 0110 0001 0100 1100
# A B C D E F G H I
# A = Startbit 1001
# B+C = Random Address
# D Bit 4 Battery, 3 Manual, 2+1 Channel
# E+F+G Bit 15+16 negativ temp, 14-0 temp
# H+I Hum
#$def = $modules{CUL_TCM97001}{defptr}{$idType3};
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[4].$a[5].$a[6])) & 0x3FFF;
my $negative = (hex($a[4])) & 0xC;
if ($negative == 0xC) {
$temp = (~$temp & 0x03FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
if (hex($a[7]) != 0xC && hex($a[8]) != 0xC) {
$humidity = hex($a[7].$a[8]);
}
$channel = (hex($a[3])) & 0x3;
$batbit = (hex($a[3]) & 0x8) >> 3;
$mode = (hex($a[3]) & 0x4) >> 2;
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1";
}
if (defined($humidity)) {
if ($humidity >= 20) {
$hashumidity = TRUE;
}
}
$hasbatcheck = TRUE;
$packageOK = TRUE;
$haschannel = TRUE;
$model="Prologue";
$readedModel=$model;
} else {
$name = "Unknown";
}
}
if ($readedModel eq "NC_WS" || (hex($a[0]) == 0x5 && $readedModel eq "Unknown")) {
# Implementation from Femduino
# PEARL NC7159, LogiLink WS0002
# /--------------------------------- Sensdortype
# / / ---------------------------- ID, changes after every battery change
# / / /--------------------- Battery state 0 == Ok
# / / / / ------------------ forced send
# / / / / / ---------------- Channel (0..2)
# / / / / / / -------------- neg Temp: if 1 then temp = temp - 2048
# / / / / / / / ----------- Temp
# / / / / / / / /-- unknown
# / / / / / / / / / Humidity
# 0101 0010 1001 0 0 00 0 010 0011 0000 1 101 1101
# Bit 0 4 12 13 14 16 17 28 29 36
#$def = $modules{CUL_TCM97001}{defptr}{$idType3};
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[4].$a[5].$a[6])) & 0x7FFF;
my $negative = (hex($a[4])) & 0x8;
if ($negative == 0x8) {
$temp = (~$temp & 0x07FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
$channel = (hex($a[3])) & 0x3;
$humidity = hex($a[7].$a[8]) & 0x7F;
$batbit = (hex($a[3]) & 0x8) >> 3;
$batbit = ~$batbit & 0x1; # Bat bit umdrehen
$mode = (hex($a[3]) & 0x4) >> 2;
if (checkValues($temp, $humidity)) {
if(!$def) {
#Log3 $name, 2, "CUL_TCM97001 Unknown device $idType3, please define it";
#return "UNDEFINED CUL_TCM97001_$idType3 CUL_TCM97001 $idType3" if(!$def);
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1" if(!$def);
}
$hashumidity = TRUE;
$hasbatcheck = TRUE;
$packageOK = TRUE;
$haschannel = TRUE;
$model="NC_WS";
$readedModel=$model;
} else {
$name = "Unknown";
}
}
if ($readedModel eq "Rubicson" || (hex($a[2]) == 0x8 && $readedModel eq "Unknown")) {
# Protocol Rubicson has as nibble C every time 1000
# e.g. F4806B8E14 1111 0100 1000 0000 0110 1011 1000 1110 0001 0100
# A B C D E F G H I
# A+B = Random Address
# C = Rubicson = 1000
# D+E+F 12 bit temp
# G+H+I Unknown
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[3].$a[4].$a[5])) & 0x3FF;
my $negative = (hex($a[3])) & 0xC;
if ($negative == 0xC) {
$temp = (~$temp & 0x03FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
if (checkValues($temp, $humidity)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1" if(!$def);
}
$packageOK = TRUE;
$model="Rubicson";
$readedModel=$model;
} else {
$name = "Unknown";
}
}
if (($readedModel eq "AURIOL" || $readedModel eq "Unknown")) {
# Implementation from Femduino
# AURIOL (Lidl Version: 09/2013)
# /--------------------------------- Channel, changes after every battery change
# / / ------------------------ Battery state 1 == Ok
# / / /------------------------ Battery changed, Sync startet
# / / / ----------------------- Unknown
# / / / / /--------------------- neg Temp: if 1 then temp = temp - 4096
# / / / / /---------------------- 12 Bit Temperature
# / / / / / /---------- ??? CRC
# / / / / / / /---- Trend 10 == rising, 01 == falling
# 0101 0101 1 0 00 0001 0000 1011 1100 01 00
# Bit 0 8 9 10 12 24 30
$def = $modules{CUL_TCM97001}{defptr}{$idType1};
if($def) {
$name = $def->{NAME};
}
$temp = (hex($a[3].$a[4].$a[5])) & 0x7FF;
my $negative = (hex($a[3])) & 0x8;
if ($negative == 0x8) {
$temp = (~$temp & 0x07FF) + 1;
$temp = -$temp;
}
$temp = $temp / 10;
$batbit = (hex($a[3]) & 0x8) >> 3;
$batbit = ~$batbit & 0x1; # Bat bit umdrehen
$trend = (hex($a[7]) & 0x3);
if (checkValues($temp, 50)) {
if(!$def) {
Log3 $name, 2, "CUL_TCM97001 Unknown device $idType1, please define it";
return "UNDEFINED CUL_TCM97001_$idType1 CUL_TCM97001 $idType1" if(!$def);
}
$hasbatcheck = TRUE;
$hastrend = TRUE;
$packageOK = TRUE;
$model="AURIOL";
$readedModel=$model;
} else {
$name = "Unknown";
}
}
}
if ($packageOK == TRUE) {
if($def) {
$def->{lastT} = $now;
}
my ($val, $valH, $state);
$msgtype = "temperature";
$val = sprintf("%2.1f", ($temp) );
$state="T: $val";
if ($hashumidity == TRUE) {
$msgtypeH = "humidity";
$valH = $humidity;
$state="$state H: $valH";
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val H: $valH";
} else {
Log3 $name, 4, "CUL_TCM97001 $msgtype $name $id3 T: $val";
}
readingsBeginUpdate($def);
if($hastrend) {
my $readTrend = ReadingsVal($name, "trend", "unknown");
if ($trend == 1) {
if ($readTrend ne "falling") { readingsBulkUpdate($def, "trend", "falling"); }
} else {
if ($readTrend ne "rising") { readingsBulkUpdate($def, "trend", "rising"); }
}
}
if ($hasbatcheck) {
my $battery = ReadingsVal($name, "battery", "unknown");
if ($batbit) {
if ($battery ne "low") { readingsBulkUpdate($def, "battery", "low"); }
} else {
if ($battery ne "ok") { readingsBulkUpdate($def, "battery", "ok"); }
}
}
if ($haschannel) {
my $readChannel = ReadingsVal($name, "channel", "");
if (defined($readChannel) && $readChannel ne $channel) { readingsBulkUpdate($def, "channel", $channel); }
}
readingsBulkUpdate($def, $msgtype, $val);
if ($hashumidity == TRUE) {
readingsBulkUpdate($def, $msgtypeH, $valH);
}
readingsBulkUpdate($def, "state", $state);
readingsEndUpdate($def, 1);
if(defined($rssi)) {
$def->{RSSI} = $rssi;
}
$attr{$name}{model} = $model;
return $name;
} else {
my $defUnknown = $modules{CUL_TCM97001}{defptr}{"Unknown"};
if (!$defUnknown) {
Log3 "Unknown", 2, "CUL_TCM97001 Unknown device Unknown, please define it";
return "UNDEFINED CUL_TCM97001_Unknown CUL_TCM97001 Unknown";
}
$name = $defUnknown->{NAME};
Log3 $name, 4, "CUL_TCM97001 Device not implemented yet name Unknown msg $msg";
my $state="Code: $msg";
if ($defUnknown) {
$defUnknown->{lastT} = $now;
}
$attr{$name}{model} = $model;
readingsBeginUpdate($defUnknown);
readingsBulkUpdate($defUnknown, "state", $state);
readingsEndUpdate($defUnknown, 1);
if(defined($rssi)) {
$defUnknown->{RSSI} = $rssi;
}
my $defSvg = $defs{"SVG_CUL_TCM97001_Unknown"};
if ($defSvg) {
CommandDelete(undef, $defSvg->{NAME});
}
return $name;
}
return undef;
}
1;
=pod
=begin html
<a name="CUL_TCM97001"></a>
<h3>CUL_TCM97001</h3>
<ul>
The CUL_TCM97001 module interprets temperature sensor messages received by a Device like CUL, CUN, SIGNALduino etc.<br>
<br>
<b>Supported models:</b>
<ul>
<li>TCM97...</li>
<li>ABS700</li>
<li>TCM21....</li>
<li>Prologue</li>
<li>Rubicson</li>
<li>NC_WS</li>
<li>GT-WT-02</li>
<li>AURIOL</li>
</ul>
<br>
New received device packages are add in fhem category CUL_TCM97001 with autocreate.
<br><br>
<a name="CUL_TCM97001_Define"></a>
<b>Define</b>
<ul>The received devices created automatically.<br>
The ID of the defive are the first two Hex values of the package as dezimal.<br>
</ul>
<br>
<a name="CUL_TCM97001 Events"></a>
<b>Generated events:</b>
<ul>
<li>temperature: The temperature</li>
<li>humidity: The humidity (if available)</li>
<li>battery: The battery state: low or ok (if available)</li>
<li>channel: The Channelnumber (if available)</li>
<li>trend: The temperature trend (if available)</li>
</ul>
<br>
<b>Attributes</b>
<ul>
<li><a href="#IODev">IODev</a>
Note: by setting this attribute you can define different sets of 8
devices in FHEM, each set belonging to a Device which is capable of receiving the signals. It is important, however,
that a device is only received by the defined IO Device, e.g. by using
different Frquencies (433MHz vs 868MHz)
</li>
<li><a href="#do_not_notify">do_not_notify</a></li>
<li><a href="#ignore">ignore</a></li>
<li><a href="#model">model</a> (TCM97..., ABS700, TCM21...., Prologue, Rubicson, NC_WS, GT-WT-02, AURIOL, Unknown)</li>
<li><a href="#showtime">showtime</a></li>
<li><a href="#readingFnAttributes">readingFnAttributes</a></li>
</ul>
<a name="CUL_TCM97001_Set"></a>
<b>Set</b> <ul>N/A</ul><br>
<a name="CUL_TCM97001_Parse"></a>
<b>Set</b> <ul>N/A</ul><br>
</ul>
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<a name="CUL_TCM97001"></a>
<h3>CUL_TCM97001</h3>
<ul>
Das CUL_TCM97001 Module verarbeitet von einem IO Gerät (CUL, CUN, SIGNALDuino, etc.) empfangene Nachrichten von Temperatur-Sensoren.<br>
<br>
<b>Unterstütze Modelle:</b>
<ul>
<li>TCM97...</li>
<li>ABS700</li>
<li>TCM21....</li>
<li>Prologue</li>
<li>Rubicson</li>
<li>NC_WS</li>
<li>GT-WT-02</li>
<li>AURIOL</li>
</ul>
<br>
Neu empfangene Sensoren werden in der fhem Kategory CUL_TCM97001 per autocreate angelegt.
<br><br>
<a name="CUL_TCM97001_Define"></a>
<b>Define</b>
<ul>Die empfangenen Sensoren werden automatisch angelegt.<br>
Die ID der angelgten Sensoren sind die ersten zwei HEX Werte des empfangenen Paketes in dezimaler Schreibweise.<br>
</ul>
<br>
<a name="CUL_TCM97001 Events"></a>
<b>Generierte Events:</b>
<ul>
<li>temperature: Die aktuelle Temperatur</li>
<li>humidity: Die aktuelle Luftfeutigkeit (falls verfügbar)</li>
<li>battery: Der Batteriestatus: low oder ok (falls verfügbar)</li>
<li>channel: Kanalnummer (falls verfügbar)</li>
<li>trend: Der Temperaturtrend (falls verfügbar)</li>
</ul>
<br>
<b>Attribute</b>
<ul>
<li><a href="#IODev">IODev</a>
Spezifiziert das physische Ger&auml;t, das die Ausstrahlung der Befehle f&uuml;r das
"logische" Ger&auml;t ausf&uuml;hrt. Ein Beispiel f&uuml;r ein physisches Ger&auml;t ist ein CUL.<br>
</li>
<li><a href="#do_not_notify">do_not_notify</a></li>
<li><a href="#ignore">ignore</a></li>
<li><a href="#model">model</a> (TCM97..., ABS700, TCM21...., Prologue, Rubicson, NC_WS, GT-WT-02, AURIOL, Unknown)</li>
<li><a href="#showtime">showtime</a></li>
<li><a href="#readingFnAttributes">readingFnAttributes</a></li>
</ul>
<a name="CUL_TCM97001_Set"></a>
<b>Set</b> <ul>N/A</ul><br>
<a name="CUL_TCM97001_Parse"></a>
<b>Set</b> <ul>N/A</ul><br>
</ul>
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=cut
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